JP2534097B2 - Remote control lock control device - Google Patents

Description

Description: FIELD OF THE INVENTION This invention relates to locking devices, and in particular to remotely operable locking devices using electromagnetic waves.

Prior Art For example, as shown in Japanese Patent Publication No. 63-11509,
Remotely operated lock control devices that unlock the locking device using infrared radiation containing a predetermined code number are known. This remote control lock control device includes a transmitter including a manually operated switch and an infrared ray emitted from the transmitter when the switch is pressed to detect a predetermined code number included in the infrared ray. A receiving signal for supplying an unlocking signal to the locking device. This remote control lock control device can release the lock device by emitting infrared rays from a position about 1 m or more away from the sensor unit of the light receiving device.
Therefore, there is an advantage that the unlocking operation by pressing the switch of the transmitting device can be simplified and speeded up.

Problems to be Solved by the Invention By the way, remote control techniques for controlling electronic devices using infrared rays including specific code numbers are used in various fields. For example, for changing the channel of a television, an infrared ray including a code number which is different for each channel is emitted from a transmitting device. These code numbers are fixed, unchanged code signals. When the infrared light is emitted toward the identification device, the identification device can discriminate and store the received code number and emit the infrared light including the same code number.

In other words, the infrared ray including the code number can be discriminated by the identification device and the infrared ray including the same code number can be copied and emitted. Therefore, the code number included in the infrared ray emitted from the transmitter for operating the lock device is immediately discriminated by the discriminating device. Moreover,
By emitting infrared rays containing the same code number from the identification device, the remote control lock control device can be unlocked easily without using a transmitter that is dedicated to the remote control lock control device. Therefore, the antitheft effect of the remote control lock control device using infrared rays is diminished for such an identification device.

Therefore, an object of the present invention is to solve the above problems and provide a remote control lock control device which is operated via an electromagnetic wave containing a changing code number.

Means for Solving the Problems A remote operation lock control device according to the present invention is provided with a transmitting device that generates an electromagnetic wave including a predetermined code number and an electromagnetic wave transmitted from the transmitting device when the predetermined code number is detected. A receiving device that supplies an unlocking signal to the locking device. The transmitting device has an arithmetic means for progressively changing the code number in a predetermined order corresponding to the number of transmissions. Further, the receiving device stores the code number included in the electromagnetic wave transmitted from the transmitting device, the preceding code number previously transmitted from the transmitting device and stored by the storing device, and then stored in the storing device. A comparison means for comparing the next code number and generating an unlock signal to the lock device when this code number is progressively changed in a predetermined order with respect to the preceding code number. In the embodiment of the present invention, the storage means stores the received code number when the received code number is not progressively changed in a predetermined order with respect to the preceding code number. The comparing means generates an unlock signal to the lock device when the code number to be received next time is progressively changed in a predetermined order with respect to the stored preceding code number. The calculation means of the transmission device adds or subtracts the code number corresponding to the number of transmissions, and the comparison means of the reception device transmits the signal to the lock device when the next code signal is larger or smaller than the preceding code number. appear. When the comparing means determines that the next code number is smaller or larger than the preceding code number, the storing means stores the code number, and when the received code number is larger or smaller than the stored preceding code number, The comparison means generates an unlock signal to the lock device.

The code number contained in the electromagnetic wave emitted from the work transmitter is changed in a predetermined order according to the number of times of emission. The receiving device which receives the electromagnetic wave emitted from the transmitting device stores the received code number and compares this code number with the stored preceding code number. When the condition that the newly stored code number is progressively changed with respect to the preceding code number in a predetermined order, for example, the condition that is larger or smaller than the preceding code, is satisfied, the comparison means causes the lock device to operate. Generate an unlock signal. As described above, in the remote control lock control device of the present invention, the receiving device does not generate the unlocking signal unless the code number included in the electromagnetic wave emitted from the transmitting device changes according to a certain condition. When the code number of the transmitting device is returned to the first small value, the locking device cannot be unlocked by the electromagnetic wave of the transmitting device because the receiving device stores the progressive code number. Therefore, the small code number sent from the transmitting device is stored, the progressive state is checked again, and if the received code number changes under the predetermined condition, the comparing means sends an unlock signal to the locking device. appear.

Example Hereinafter, an infrared remote control lock control device according to an embodiment of the present invention will be described with reference to FIGS. 1 to 4.

First, FIG. 1 shows a circuit diagram of the transmitting device. Transmitting device 1
Is a control circuit 10 including a one-chip microcomputer (CPU) and a ROM (Read Only) connected to the control circuit 10.
Memory) 26, a switch 12 having one end connected to the input port I ₁ of the control circuit 10 via the capacitor 11, a battery 13 connected in parallel between the other end of the switch 12 and the ground, and smoothing. A capacitor 14, a chattering prevention capacitor 15 connected between one end of the switch 12 and the ground, and a pulse shaping resistor 16 and a diode 17 connected in parallel between one end of the capacitor 11 and the ground.
And a transistor 19 having a base connected to the output port O ₁ of the control circuit 10 via a resistor 18 and an emitter connected to the ROM 26, and an infrared emission connected in series between the collector of the transistor 19 and ground. Diode for
A resistor 21, a resistor 22 and a light emitting diode 23 connected in series between the output port O ₂ of the control circuit 10 and the ROM 26,
A resistor connected between the other end of capacitor 11 and ground
24 and an oscillation resistor 25 connected to the input ports I ₂ and I ₃ of the control circuit 10. Capacitor 11 is connected to the ROM 26, the other end of the switch 12 is connected to the output port O ₃ of the control circuit 10.

In the above configuration, when the switch 12 is manually turned on, a reset pulse is applied to the input port I ₁ via the capacitor 11 and the resistor 16. Therefore, the control circuit 10 is operated according to the sequence shown in FIG. When the control circuit 10 operates according to a predetermined sequence, the output of the output port O ₁ causes the transistor 19 to turn on and off once or a predetermined number of times. The on / off operation of the transistor 19 corresponds to an infrared signal indicating a fixed number and a predetermined code number. When the transistor 19 is turned on and off, the infrared emitting diode 20 blinks. Since the blinking of the diode 20 cannot be discerned by the naked eye, the light emitting diode 23 that generates visible light when the diode 20 operates is turned on for a short time.

Next, an operation sequence of the control circuit 10 shown in FIG. 2 will be shown.

In step 30 from the start, it is determined whether the switch 12 has been turned on. If the switch 12 is not turned on,
Returned to the start. When the switch 12 is turned on, the reset pulse is applied to the input port I ₁ as described above (step 31). Here, the control circuit 10 reads the fixed number stored in the ROM 26 (step 32). Next, the previously used and stored code number is read (step 33), and a predetermined number α is added or subtracted to the read code number (step 34). Either addition or subtraction of the predetermined number α is selectively performed. Next, in step 35, the fixed number and code number are pulse-coded to generate an output as infrared rays. This infrared ray is output once or repeatedly.

The fixed number is used to determine whether or not the signal emitted from the transmitter 1 is a signal suitable for the received signal. As the code number, a number unique to each remote control lock control device is used. For example, the code number is 1,000,000
It is intended to display a signal with a digit of ~ 2,000,000. There are various methods of pulse coding the fixed number and the code number.
For example, a fixed number may be displayed at the beginning of turning on and off the infrared light, and a code number added or subtracted after the fixed number may be displayed. Conversely, the code number may be displayed first, and then the fixed number may be displayed. Alternatively, insert a fixed number for each digit of the code number,
It can also be displayed as an infrared signal. If the code number is progressively changed according to a predetermined order or mathematical formula, the progressive change of the code number may be progressive addition or progressive subtraction, and these addition and subtraction include multiplication, division, or calculation based on a specific arithmetic expression. . It is also possible to repeat addition and subtraction alternately as required.

In practice, if the new code number is added to or subtracted from the preceding code number and the new code number is compared with the preceding code number, the calculation means of the control device 10 can be determined relatively easily. You can

FIG. 3 shows a circuit diagram of the receiving device 2. The receiving device 2
It has a sensor circuit 40, a control circuit 41 that receives a signal from the sensor circuit 40, and a lock control circuit 42 that is operated by the output of the control circuit 41. The sensor circuit 40 has a one-chip infrared light receiving circuit 50 and an amplifier circuit 51 that amplifies the signal received by the infrared light receiving circuit 50 and supplies the amplified signal to the control circuit 41. The amplifier circuit 51 has two transistors 52 and 53. The positive side line 54 of the sensor circuit 40 is connected to the output port O ₁ of the control circuit 41, and the negative side line 55 of the sensor circuit 40 is grounded.
A smoothing capacitor 56 is provided on the positive line 54 and the negative line 55.
And 57 are connected in parallel. Further, the positive side line 54 is connected to the output port O ₂ of the control circuit 41 via the display light emitting diode 58 and the resistor 59.

The emitter of the transistor 52 is connected to the positive line 54, the base is connected to the light receiving circuit 50, and the collector is connected to the base of the transistor 53. The emitter and the collector of the transistor 53 are connected to the input port I ₁ of the control circuit 41 through the diode 60 and the base of the transistor 62 through the diode 61. The emitter of the transistor 62 is connected to the power supply, and the collector is connected to the input port I ₇ of the control circuit 41 via the reset circuit 63. The reset circuit 63 includes a resistor 64 connected between the emitter of the transistor 62 and the ground, a capacitor 65 connected between the emitter of the transistor 62 and the input port I _7, and between the input port I ₇ and the ground. Has a resistor 66 and a diode 67 connected in parallel.

The control circuit 41 is a CPU composed of a one-chip microcomputer, and operates according to the sequence shown in FIG. 4 described later. The input ports I _{2 to} I ₄ of the control circuit 41
ROM68 is connected. A fixed number is stored in the ROM 68. Transistors 70 and 71 as driver circuits are connected to the output ports O ₃ and O ₄ of the control circuit 41 via resistors 72 and 73, respectively. The collector of the transistor 70 is a relay
It is connected to the power supply via the coil 75 of 74, and the emitter is grounded. Similarly, the collector of transistor 71 is relay 76.
Is connected to the power supply through the coil 77 and the emitter is grounded. Of the three contacts of the relays 74 and 76, the contacts 74a and 76a are connected to the power supply. The contacts 74b and 76b are grounded. Contact 74
c and 76c are connected to both terminals of the motor 80 which drives the locking device. A back electromotive force prevention controller 81 is connected to the motor 80. Further, the input ports I ₅ and I ₆ of the control circuit 41 are connected to a state detection device 82 which detects a locked state and an unlocked state of the lock device. The state detecting device 82 has a switch (not shown), and this switch is switched at the time of a lock operation and an unlock operation of the lock device.

In the above-mentioned configuration, the infrared rays generated from the diode 20 for emitting infrared rays when the switch 12 of the transmitter 1 is operated are the infrared ray receiving circuit 50 in step 90 of FIG.
Is received by. The signal generated by the infrared light receiving circuit 50 is supplied to the input port I ₁ of the control circuit 41 via the amplifier circuit 51. At the same time, when the amplifier circuit 51 is turned on,
Transistor 62 turns on. Therefore, the reset circuit
A trigger signal is applied to the input port I ₇ of the control circuit 41 via 63, and the control circuit 41 is activated (step 91). Therefore, the control circuit 41 stores the received light signal supplied to the input port I ₁ by the storage means (step 92). Simultaneously with or after this, the control circuit 41 reads the fixed number stored in the ROM 68 into storage means such as RAM (Random Access Memory) (step 93).

Here, by the comparison means provided in the control circuit 41,
The fixed number included in the signal of the transmitting device 1 supplied through the light receiving circuit 50 is compared with the fixed number stored in the ROM 68 (step 94). When the received fixed number does not match the read fixed number, the process returns to the start. On the contrary, when these fixed numbers match, the preceding code number stored last time is compared with the currently input code number to judge whether the inputted code number is larger or smaller than the preceding code number. It In this embodiment, it is selectively determined whether it is larger or smaller than the preceding code number, and when a correct code number is input, it is incremented to a certain numerical value and comparison means is added or subtracted. To judge. In this case, it is determined whether or not the currently input code number is larger than the preceding code number.

When the number is larger than the preceding code number in step 95, the control circuit 41 sends an unlocking signal from the output port O ₃ to the transistor 70 for a fixed time (for example, 0.5 seconds) (step 9).
8). This causes transistor 70 to turn on and relay 7
The coil 75 of 4 is energized, the contacts 74a and 74c are connected,
The motor 80 rotates in one direction. Therefore, the lock device (not shown) unlocks (step 99).

For example, when the code number is accumulated at the maximum value and then returned to the first small value, the code number received by the receiving device 2 is smaller than the preceding code number. In such a case, when it is smaller than the preceding code number in step 95, the control circuit 41 stores the current code number in the storage means (step
96), all preceding code numbers for the previous n times (for example, 3 times) are compared, and comparison is made by the comparing means for the larger or smaller number (step 97). In this embodiment, since the case where it is larger than the preceding code number is set, when it is larger than the preceding code number, the routine proceeds to step 98, where the unlock signal is sent from the output port O ₃ . If it is smaller than the preceding code number, the routine returns from step 97 to the start. Thus, when the code number received in step 95 has not been progressively changed with respect to the preceding code number in a predetermined order, for example, by addition or subtraction, the storage means stores the received code number in step 96. Further step 97
At, the comparing means determines whether or not the next received code number is progressively changed in a predetermined order with respect to the stored preceding code number. If the code number is emitted from the legitimate transmission device 1, the code number is changed every time the switch 12 is turned on (each time the switch 12 is received). Therefore, the code number is progressively changed in a predetermined order. After confirmation, a lock / unlock signal for the lock device is generated (step 98).

The control device 41 receives a signal from the state detection device 82, and when the infrared signal emitted from the transmission device 1 conforms to the sequence shown in FIG. 4 and the lock device is in the locked state, the lock signal from the output port O ₄ is kept constant. The transistor 71 is turned on for a time (for example, 0.5 seconds). As a result, the relay 76 is energized and the coil 77 is energized.
a and 76c are connected. Therefore, a current flows in the motor 80 in the opposite direction, and the locking device is locked. In the above embodiment, the case where the code number is progressively increased has been described, but when the code number reaches the maximum value within a predetermined numerical range, it is returned to the first small value.

The above embodiment of the present invention can be modified. For example,
In addition to the progressive addition, when the progressive subtraction in which the code number is gradually reduced is performed, the present invention can be configured to perform addition / subtraction / multiplication / division or other subtraction within a certain numerical range according to a predetermined order or mathematical formula. .

Although the transmitting device 1 and the receiving device 2 are communicated with each other by using infrared rays, various electromagnetic waves such as ordinary visible light and radio waves can be used in addition to infrared rays.

Effect of the Invention Since the remote control lock control device of the present invention uses an electromagnetic wave representing a progressively changing code number, even if the electromagnetic wave is copied by another reading device, the lock device cannot be unlocked by the copied signal. . Therefore, the antitheft effect of the remote control lock control device can be significantly improved.

[Brief description of drawings]

FIG. 1 is a circuit diagram of a transmitting device used in a remote control lock control device according to the present invention, FIG. 2 is a flowchart showing the operation of the transmitting device shown in FIG. 1, and FIG. 3 is a remote control lock control device according to the present invention. FIG. 4 is a circuit diagram of the receiving device used in FIG. 4, and FIG. 4 is a flowchart showing the operation of the receiving device shown in FIG. 1 ... Sending device, 2 ... Receiving device,

Claims (4)

(57) [Claims] 1. A transmitting device which generates an electromagnetic wave including a predetermined code number, and a receiving device which receives an electromagnetic wave transmitted from the transmitting device and supplies an unlocking signal to a lock device when a predetermined code number is detected. In the remote operation lock control device having a transmitter, the transmitter has arithmetic means for progressively changing the code number in a predetermined order corresponding to the number of transmissions, and the receiver has a code number included in an electromagnetic wave transmitted from the transmitter. Comparing the preceding code number previously transmitted from the transmitting device and stored by the storing means with the next code number stored in the storing means, and this code number is compared with the preceding code number. A remote control lock control device comprising: a comparison means for generating an unlocking signal to the lock device when the power is progressively changed in a predetermined order. 2. When the received code number is not progressively changed in a predetermined order with respect to the preceding code number, the storage means stores the received code number, and the comparison means stores the next received code number. 2. The remote control lock control device according to claim 1, wherein an unlock signal for the lock device is generated when the preceding code number is progressively changed in a predetermined order. 3. The calculation means of the transmission device adds or subtracts the code number corresponding to the number of transmissions, and the comparison means of the reception device comprises:
2. The remote controlled locking device according to claim 1, which generates a signal to the locking device when the next code signal is greater than or less than the preceding code number. 4. When the comparing means determines that the next code number is smaller or larger than the preceding code number, the storing means stores the code number, and the received code number is larger than the stored preceding code number. 4. The remote control lock control device according to claim 3, wherein, when or when small, the comparing means generates an unlock signal to the lock device.