JP2009185581A - Electric lock system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To reduce the electricity taken from a commercial power source and consumed by an electric lock control panel. <P>SOLUTION: The electric lock system 1 comprises a solar energy generation part 2, a secondary battery part 3, the electric lock control panel 4 and an electric lock 5. The solar energy generation part 2 generates the power by the solar light. The secondary battery part 3 stores the electricity generated by the solar energy generation part 2. The electric lock control panel 4 for controlling locking and unlocking operation of the electric lock 5 operates using the secondary battery part 3 as a main power supply. When the voltage of the secondary battery part 3 is found to decrease to a preset reference value or less by monitoring the voltage of the secondary battery part 3, the power source is switched over to the commercial power source for operation. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to an electric lock system that is employed in, for example, a door of a commercial building, a public facility, or a general house, and includes an electric lock control panel that electrically locks and unlocks the lock.

  Conventionally, for example, a door of a commercial building, a public facility, or a general house has been provided with an electric lock system having a high crime prevention property in order to avoid intrusion of a suspicious person. Various types of this type of electric lock system have been proposed, and the basic operation thereof is to apply a dead bolt electrically by energizing a driving means such as a motor or a solenoid when a locking / unlocking command is issued. The lock is locked and unlocked (see, for example, Patent Document 1 below).

By the way, as one of the conventional electric lock systems of this type, a combination of an electric lock control panel that operates with a commercial power supply (AC100V) and an electric lock that is locked and unlocked by energization control from the electric lock control panel. It has been known.
Japanese Patent Laid-Open No. 10-025935

  However, in the conventional electric lock system in which the electric lock control panel and the electric lock described above are combined, the electric lock control panel is operated with a commercial power supply (AC 100 V), and therefore, power is constantly consumed. Was consuming wasteful power.

  Therefore, the present invention has been made in view of the above problems, and an object of the present invention is to provide an electric lock system that can reduce the power consumed by the electric lock control panel from a commercial power source.

In order to achieve the above object, an electric lock system according to claim 1 is an electric lock system including an electric lock control panel for electrically locking and unlocking a lock.
A solar power generation unit that generates power by sunlight;
A secondary battery unit that stores electric power generated by the solar power generation unit,
The electric lock control panel operates with the secondary battery unit as a main power source, monitors the voltage of the secondary battery unit, and when the voltage of the secondary battery unit falls below a preset reference value The power source is switched to a commercial power source to operate.

The electric lock system according to claim 2 is the electric lock system according to claim 1,
The electric lock control panel detects the voltage of the commercial power source when switching the power source from the secondary battery unit to the commercial power source. When the predetermined voltage is not detected from the commercial power source, the electric lock control panel supplies the power source of the secondary battery unit. It is characterized by holding as it is.

The electric lock system according to claim 3 is the electric lock system according to claim 1 or 2,
The power supply display part which displays whether the operation power supply currently used is the said secondary battery part or the said commercial power supply so that identification is possible is provided.

  According to the electric lock system of the present invention, the electric lock control panel operates with the secondary battery unit as a main power source during normal operation, and switches to a commercial power source when the voltage of the secondary battery unit decreases. Energy consumption can be reduced by reducing the power consumed from the commercial power source. Further, when the secondary battery unit is switched to the commercial power source, if the predetermined voltage is not detected from the commercial power source, the power source is maintained as the secondary battery unit, so that a system down due to a power failure or the like can be prevented. Further, it is possible to notify the user of the current operating power source, that is, which power source (secondary battery unit or commercial power source) is currently operating.

  Hereinafter, the best mode for carrying out the present invention will be described in detail with reference to the accompanying drawings. FIG. 1 is a schematic configuration diagram of an electric lock system according to the present invention, FIG. 2 is a diagram showing an example of a power supply display unit in an electric lock control panel of the electric lock system, and FIG. 3 explains a power determination procedure by the electric lock system. It is a flowchart for doing.

  The electric lock system 1 of this example is employed in various doors such as commercial buildings, public facilities, or ordinary houses, for example, as shown in FIG. 1, a solar power generation unit 2, a secondary battery unit 3, and an electric lock control panel 4. The electric lock 5 is schematically configured.

  The solar power generation unit 2 is installed outside a building where the system is adopted, and uses solar cells to directly convert solar energy into electric power.

  The secondary battery unit 3 is used as a main power source of the electric lock control panel 4, and includes a reusable battery that can be repeatedly charged and discharged, such as a nickel cadmium battery, a nickel metal hydride battery, and a lithium ion battery, The electric power generated by 2 is charged via a charger (not shown).

  The electric lock control panel 4 is disposed on, for example, an indoor wall, etc., and normally operates with the secondary battery unit 3 as a main power source and uses a commercial power source (AC 100V) as an auxiliary power source, and a predetermined locking / unlocking operation is performed. In some cases, the electric lock 5 is controlled to be unlocked and unlocked, and as shown in FIG. 1, a power determination unit 4a, a control panel power supply unit 4b, a power display unit 4c, and an electric lock control unit 4d are provided.

  The power source determination unit 4a monitors the voltage of the secondary battery unit 3 and switches the power source to a commercial power source when the detected voltage of the secondary battery unit 3 falls below a preset secondary battery reference value. A power supply switching signal is output to the control panel power supply unit 4b.

  When the power source is switched from the secondary battery unit 3 to the commercial power source, the power source determination unit 4a also monitors the voltage of the commercial power source, and when no predetermined voltage is detected from the commercial power source (when no voltage is detected or detected) When the voltage is equal to or lower than a preset commercial power supply reference value), the power supply switching signal described above is not output, and the power supply is held as the secondary battery unit 3.

  In addition, the power determination unit 4a outputs a display switching control signal to the power display unit 4c so as to display a warning indicating that there is no voltage detection from the commercial power source when displaying the operating power source currently used and switching to the commercial power source. ing.

  The control panel power supply unit 4b uses the secondary battery unit 3 as the main power supply and the commercial power supply as the auxiliary power supply, and the drive power supply to each part of the electric lock control panel 4 (power determination unit 4a, power supply display unit 4c, electric lock control unit 4d). Supply. More specifically, the control panel power supply unit 4b is supplied with a voltage from the secondary battery unit 3 during normal times (when the voltage of the secondary battery unit 3 is higher than the secondary battery reference value), and is a voltage supply circuit for a commercial power supply. Is shut off. On the other hand, when the voltage of the secondary battery unit 3 is equal to or lower than the reference value of the secondary battery and the power switching signal is input from the power source determination unit 4a, the voltage is supplied from the commercial power source and the voltage supply circuit of the secondary battery unit 3 Is shut off.

  The power supply display unit 4c displays an identification display of the currently used operating power supply (secondary battery unit 3 or commercial power supply) and a warning display that a predetermined voltage is not detected from the commercial power supply when switching to the commercial power supply. . As shown in FIG. 2, the power supply display unit 4 includes a lamp A for “secondary battery power” that lights when the operating power is a secondary battery, and a “commercial power” that lights when the operating power is commercial power. The lamp B can be constituted by a “warning” lamp C which is turned on when a predetermined voltage is not detected from the commercial power supply when switching to the commercial power supply. FIG. 2 shows an example in which the lamp A of “secondary battery power source” is lit (indicated by a black circle) in order to identify and display that the current operating power source is a secondary battery.

  The power supply display unit 4c only needs to have a configuration that can identify and display the three states described above, and is not limited to the configuration of the three types of lamps A, B, and C in FIG. For example, the power supply display unit 4c may be configured by a display device such as a liquid crystal panel, and the above three states may be identified and displayed by character display.

  The electric lock control unit 4d operates using the secondary battery unit (main power source) 3 or the commercial power source (auxiliary power source) as a power source, and according to the locking / unlocking state of the electric lock 5 and the door opening / closing state during the locking / unlocking operation. Then, a drive signal (unlock drive signal or lock drive signal) is output to the electric lock 5 to control the lock.

  The above-described locking / unlocking operation is not limited to an operation of pressing a locking button or an unlocking button, for example, but a card-like storage medium such as a magnetic card, an IC card, or a non-contact type IC card possessed by a user, an ID key, or a mobile phone This includes an operation in which a reader (not shown) reads information (such as locking / unlocking information and a personal identification number) from a mobile device such as a telephone to determine validity.

  The electric lock 5 includes a drive device such as a motor or a solenoid that is driven by energization of a drive signal (unlock drive signal or lock drive signal) from the electric lock control unit 4D, and is provided in a locking hole on the door side of the lock. On the other hand, the lock is unlocked and unlocked by protruding the dead bolt (when locking) or retracting (when unlocking).

  Next, the processing operation of the electric lock control panel 4 in the electric lock system 1 having the above configuration will be described with reference to the flowchart of FIG.

  First, the voltage of the secondary battery unit 3 (secondary battery voltage) is detected (ST1), the voltage is checked, and it is determined whether or not the detection of the secondary battery voltage is OK (ST2). That is, the detected secondary battery voltage is compared with a preset secondary battery reference value, and if the detected secondary battery voltage is higher than the reference value, it is determined to be OK, and the detected secondary battery voltage is less than the reference value. If so, it is determined as NG. If the detection of the secondary battery voltage is determined to be OK (ST2-Yes), the voltage is supplied to the control panel power supply unit 4b (ST3), and the commercial power supply voltage supply circuit is shut off (ST4). And it displays on the power supply display part 4c that the operating power supply currently used is the secondary battery part 3. FIG. Specifically, in the power supply display section 4c shown in FIG. 2, the “secondary battery power” lamp A is turned on, the “commercial power” lamp B is turned off, and the “warning” lamp C is turned off (ST5, 6). 7).

  In ST2, if it is determined that the detection of the secondary battery voltage is not OK (NG) (ST2-No), the commercial power supply voltage is detected (ST8), the voltage is checked, and the commercial power supply voltage is detected. It is determined whether or not it is OK (ST9). That is, if the commercial power supply voltage can be detected, it is determined as OK, and if the commercial power supply voltage cannot be detected, it is determined as NG. Alternatively, the commercial power supply voltage is compared with a preset commercial power supply reference value, and if the detected commercial power supply voltage is higher than the reference value, it is determined to be OK, and if the detected commercial power supply voltage is less than the reference value, it is determined to be NG. . If it is determined that the detection of the commercial power supply voltage is not OK (NG) (ST9-No), it is determined that the voltage cannot be detected due to, for example, a power failure, and a warning is displayed on the power supply display unit 4c. Specifically, the “warning” lamp C of the power display unit 4c shown in FIG. 2 is turned on (ST10).

  On the other hand, if the commercial power supply voltage is detected as OK (ST9-Yes), the voltage is supplied to the control panel power supply 4b (ST11), and the voltage supply circuit of the secondary battery unit 3 is shut off (ST12). And it displays on the power supply display part 4c that the operating power supply currently used is a commercial power supply. Specifically, in the power supply display section 4c shown in FIG. 2, the “commercial power” lamp B is turned on, the “secondary battery power” lamp A is turned off, and the “warning” lamp C is turned off (ST13, 14). , 15).

  As described above, in the electric lock system of the present example, normally, when the electric lock control panel 4 operates with the secondary battery unit 3 as the main power supply and detects a voltage drop of the secondary battery, the commercial power supply (auxiliary power supply) is used. ) To switch to. When switching from the secondary battery unit 3 to the commercial power source, the voltage of the commercial power source is also checked. If the predetermined voltage is not detected, the secondary battery unit 3 is maintained without switching the power source to the commercial power source. The power display unit 4c displays a warning. That is, when the voltage cannot be detected due to, for example, a power failure when the secondary battery unit 3 is switched to the commercial power source, a warning is displayed to the user to prevent the system from going down automatically. Thereby, the main power supply of the electric lock control panel 4 can be obtained from photovoltaic power generation (secondary battery), and the electric power which the electric lock control panel 4 consumes from a commercial power supply can be reduced.

It is a schematic block diagram of the electric lock system which concerns on this invention. It is a figure which shows an example of the power supply display part in the electric lock control panel of the electric lock system which concerns on this invention. It is a flowchart for demonstrating the power supply determination procedure by the electric lock system which concerns on this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Electric lock system 2 Solar power generation part 3 Secondary battery part 4 Electric lock control panel 4a Power supply determination part 4b Control panel power supply part 4c Power supply display part 4d Electric lock control part 5 Electric lock

Claims (3)

In an electric lock system equipped with an electric lock control panel for electrically locking and unlocking the lock,
A solar power generation unit that generates power by sunlight;
A secondary battery unit that stores electric power generated by the solar power generation unit,
The electric lock control panel operates with the secondary battery unit as a main power source, monitors the voltage of the secondary battery unit, and when the voltage of the secondary battery unit falls below a preset reference value An electric lock system that operates by switching the power source to a commercial power source. The electric lock control panel detects the voltage of the commercial power source when switching the power source from the secondary battery unit to the commercial power source. When the predetermined voltage is not detected from the commercial power source, the electric lock control panel supplies the power source of the secondary battery unit. The electric lock system according to claim 1, wherein the electric lock system is held as it is. The electric lock system according to claim 1 or 2, further comprising a power supply display unit for displaying whether the operating power supply currently used is the secondary battery unit or the commercial power supply.

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