JP2013023883A - Lock device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To ensure a proper response when a user uses an IC card and to reduce electrical power consumption.SOLUTION: A lock device 1 transmits a card communication signal applying power to a passive type non-contact IC card 2 and acting as a carrier for carrying card information of the IC card, receives the card information transmitted from the IC card 2 which has received the card communication signal, performs correctness determination of the IC card by using the card information, and makes an electric lock 31 operate for locking or unlocking when the IC card is correct. The transmission interval of the card communication signal is set relatively short during a period, until the use completion date of the IC card 2 (for example, check-out date) comes, after the use of the IC card 2 is started, and the transmission interval of the card communication signal is set relatively long after the use completion date of the IC card 2 comes. Arrival of the use completion date of the IC card 2 is determined to automatically change the transmission interval of the card communication signal.

Description

  The present invention relates to a lock device that controls an electric lock using, for example, an IC card, an RFID (Radio Frequency Identification) card, or the like.

  A lock device that controls an electric lock using an IC card, an RFID card, or the like is used in facilities such as hotels.

  Patent Document 1 below is a card key system for unlocking a door provided in a building, and includes a card key in which identification information for identifying a user is described, and the building. A reader that identifies the user by taking out the identification information from the card key by non-contact communication when the card key is within a predetermined communication range, and is provided in the building, and the user can be identified by the reader A card key system is described which includes a locking device for switching the locking and unlocking of the door only in the case.

Japanese Patent Application Laid-Open No. 2004-68483

  The identification information is read from the IC card by the card reader, and it is determined whether or not the IC card is a correct IC card by using the read identification information. When the IC card is the correct IC card, an electric lock is locked. In the lock device that operates or unlocks, the card reader periodically transmits a communication signal necessary for communication with the IC card. For example, when the IC card is a passive contactless IC card (passive contactless RFID), the communication signal enables generation of electric power by electromagnetic induction in the IC card and identification information from the IC card to the card reader. Is a signal that functions as a carrier for carrying

  The card reader constantly transmits the communication signal at regular intervals, for example, at intervals of 0.5 seconds. As a result, when the IC card approaches or comes into contact with the card reader, the identification information is transmitted from the IC card to the card reader within approximately 0.5 seconds, and then the IC card is judged using this identification information. Is immediately performed, and the locking or unlocking operation of the electric lock is immediately performed according to the determination result. Thus, by setting the transmission interval of the communication signal to 0.5 seconds, for example, the response of the lock device can be improved, and the operability for the user can be improved.

  However, since the communication signal is constantly transmitted at a short interval of, for example, 0.5 seconds, the power consumption of the lock device is large, and the battery life is shortened when the lock device is battery-driven. is there. On the other hand, if the transmission interval of the communication signal is lengthened, the power consumption of the lock device can be reduced. In this case, however, the response of the lock device is deteriorated and the operability for the user is lowered.

  The present invention has been made in view of the above-described problems, for example, and an object of the present invention is to secure a good response when a user uses a portable key function device such as an IC card and to reduce power consumption. An object of the present invention is to provide a locking device that can be reduced.

  In order to solve the above problems, a first lock device of the present invention is a lock device that controls the operation of an electric lock, and communicates with a portable key function device that is a portable device that functions as a key. A communication signal transmitting means for transmitting a signal, a transmission interval setting means for setting a transmission interval of the communication signal, and a first transmitted from the portable key function device that has received the communication signal transmitted by the communication signal transmitting means. The identification information receiving means for receiving the identification information, the storage means for storing the second identification information that is the same as or corresponding to the first identification information, and the first information received by the identification information receiving means Card determination means for determining whether or not the identification information and the second identification information stored in the storage means are the same or in a correspondence relationship; as a result of the determination by the card determination means, the reception of the identification information hand When the first identification information received by the storage means and the second identification information stored in the storage means are the same or in a corresponding relationship, the electric lock control means for unlocking the electric lock; and the portable type Date and time information acquisition means for acquiring use end date and time information indicating use end date and time of the key function device, wherein the transmission interval setting means is the portable key indicated by the use end date and time information acquired by the date and time information acquisition means When the end date of use of the functional device comes, the transmission interval of the communication signal is lengthened.

  According to the first lock device of the present invention, during the period of use of a portable key function device such as an IC card, the communication signal transmission interval is relatively shortened, so that It is possible to quickly perform the reception of the identification information of 1, the correctness determination of the portable key function device using the first identification information, and the unlocking operation of the electric lock based on the correctness determination of the portable key function device. Thereby, the response of the locking device can be improved. On the other hand, after the usage period of the portable key function device ends, the power consumption of the lock device can be reduced by making the communication signal transmission interval relatively long.

  In order to solve the above-described problem, the second lock device of the present invention is the above-described first lock device of the present invention, wherein the first identification information of the portable key function device includes the portable key function device. The end date / time information of the portable key function device is acquired from the first identification information transmitted from the portable key function device. And

  According to the second locking device of the present invention, when the first identification information is received from the portable key function device, the use end date / time information of the portable key function device can be acquired, so the use end Acquisition of date information and change of the transmission interval of communication signals based on the end date of use can be easily realized.

  In order to solve the above-mentioned problem, the third locking device of the present invention is the above-described first or second locking device of the present invention, wherein the transmission interval setting means is transmitted from the portable key function device. When the first identification information is received for the first time by the identification information receiving means, the transmission interval of the communication signal is set to the first transmission interval, and then the use end date and time information acquired by the date and time information acquisition means When the use end date / time indicated by is reached, the transmission interval of the communication signal is set to a second transmission interval that is longer than the first transmission interval.

  According to the third lock device of the present invention, the response of the lock device can be improved by shortening the transmission interval of the communication signal during the use period of the portable key function device. After the usage period of the key function device has passed, the power consumption of the lock device can be reduced by lengthening the communication signal transmission interval. In addition, the start point and end point of the usage period of the portable key function device can be clearly and easily recognized.

  In order to solve the above-mentioned problem, the fourth locking device of the present invention is the above-described first to third locking device of the present invention, wherein the portable key function device is a passive non-contact IC card. It is characterized by being.

  According to the fourth locking device of the present invention, after the use period of the IC card is ended, the power consumption of the locking device is reduced by increasing the transmission interval of the communication signal functioning as a carrier (carrier wave). Can do.

  In order to solve the above-mentioned problems, a fifth locking device of the present invention is the above-described first to fourth locking device of the present invention, and a housing that forms an outer shell, and is housed in the housing. And is operated by electric power supplied from the battery.

  According to the fifth locking device of the present invention, after the usage period of the portable key function device has passed, the life of the battery of the locking device can be extended by extending the communication signal transmission interval.

  According to the present invention, it is possible to ensure a good response when a user uses a portable key function device such as an IC card, and to reduce power consumption.

It is a block diagram which shows the locking device by embodiment of this invention with an IC card and an electric lock. It is a flowchart which shows the process which the locking device by embodiment of this invention performs.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 shows a locking device according to an embodiment of the present invention. In FIG. 1, a lock device 1 according to an embodiment of the present invention receives card information transmitted from an IC card 2, and determines whether or not the IC card 2 is a correct IC card using the received card information. When the IC card 2 is a correct IC card, the electric lock 31 is a device for locking or unlocking. In the present embodiment, the lock device 1 is applied to security management of a hotel room. For example, the locking device 1 is attached to a door of a hotel room, controls the electric lock 31 attached to the door, and locks and unlocks the door.

  The IC card 2 functions as a key in that it is used for the lock device 1 to operate the electric lock 31. Further, the IC card 2 can be easily carried by the user in, for example, a pocket of clothes or housed in a small bag. From such a point, the IC card 2 is one form of a portable key function device. Specifically, the IC card 2 is a passive non-contact IC card. The IC card 2 generates electromagnetic induction by a card communication signal transmitted from the lock device 1 to obtain power, and transmits card information to the lock device 1 using this power. For communication between the IC card 2 and the lock device 1, a passive contactless RFID communication method can be applied. The card communication signal includes a signal for supplying power to the IC card 2 and a signal serving as a carrier for transporting card information from the IC card 2 to the lock device 1. When the IC card 2 approaches the lock device 1 and the distance between the IC card 2 and the antenna 12 of the lock device 1 is, for example, 12 mm or less, the IC card 2 receives the card communication signal and obtains power. Card information can be transmitted.

  The IC card 2 includes a storage element 3, an arithmetic processing circuit 4, and an antenna 5. The memory element 3 is a nonvolatile rewritable semiconductor memory element. Card information is stored in the storage element 3. The card information includes a hotel code, a room number, check-in date information, check-out date information, and the like. The hotel code is a code for identifying a hotel where the locking device 1 is used. The room number is the number of the room where the lock device 1 is attached. The check-in date / time information is information indicating the date / time (year / month / day / hour / minute / second) when the user of the IC card 2 checked into the hotel. The check-out date / time information is information indicating the date / time (year / month / day / hour / minute / second) when the user of the IC card 2 checks out the hotel.

  The IC card 2 is issued by a card issuing machine or the like and handed to the user when, for example, a user (guest) checks in the hotel. When the IC card 2 is issued, the card information described above is stored in the storage element 3 of the IC card 2 by the card issuing machine. The user who is handed the IC card 2 uses the IC card 2 against the lock device 1 (specifically, holds the IC card 2 over the lock device 1) until the check-out, and the lock The electric lock 31 can be operated by the device 1 to lock and unlock the door of the room permitted to be used.

  The lock device 1 receives card information transmitted from the IC card 2, and uses the received card information to determine whether the IC card 2 is a correct IC card, and the IC card 2 When the IC card is a correct IC card, an electric lock control unit 21 that is a circuit for locking or unlocking the electric lock 31 and a battery 22 that supplies power to the lock device 1 and the electric lock 31 are provided. The locking device 1 includes a housing 23 that forms an outer shell thereof, and the card reader unit 11, the electric lock control unit 21, and the battery 22 are accommodated in the housing 23.

  The card reader unit 11 includes an antenna 12, a communication control unit 13, a transmission interval setting unit 14, a date and time information acquisition unit 15, a storage unit 16, a card registration unit 17, and a card determination unit 18.

  The communication control unit 13 is a communication control circuit for performing wireless communication with the IC card 2. The communication control unit 13 transmits a card communication signal through the antenna 12 and transmits card information transmitted from the IC card 2 through the antenna 12. Receive. The transmission interval setting unit 14 sets the transmission interval of the card communication signal, and changes the transmission interval of the card communication signal based on the check-out date / time information included in the card information transmitted from the IC card 2. The date information acquisition unit 15 extracts checkout date information from the registration information stored in the storage unit 16.

  The storage unit 16 is a storage unit that can store information in a rewritable manner, and is realized by, for example, a memory built in the lock device 1. The storage unit 16 stores registration information. The registration information includes a hotel code, a room number, check-in date information, check-out date information, and the like. The registration information is the same as the card information of the IC card 2 currently registered.

  The card registration unit 17 performs processing for registering the IC card 2. That is, when the IC card 2 is used for the lock device 1 for the first time, the card registration unit 17 determines that the card information transmitted from the IC card 2 to the lock device 1 satisfies a predetermined registration condition. As long as it is stored in the storage unit 16 as registration information. When the IC card 2 after registration is used for the lock device 1, the card determination unit 18 transmits the card information transmitted from the IC card 2 to the lock device 1 and the registration information stored in the storage unit 16. Are compared to determine whether the IC card 2 is correct.

  A part of the communication control unit 13, the transmission interval setting unit 14, the date and time information acquisition unit 15, the card registration unit 17, and the card determination unit 18 are connected to the lock device 1 by a CPU (Central Processing Unit) built in the lock device 1. This is realized by reading and executing a program stored in a built-in memory. The communication control unit 13 is a specific example of a communication signal transmitting unit and an identification information receiving unit. The transmission interval setting unit 14 is a specific example of the transmission interval setting unit, the date / time information acquisition unit 15 is a specific example of the date / time information acquisition unit, and the storage unit 16 is a specific example of the storage unit. The card determination unit is a specific example of the card determination unit, and the electric lock control unit 21 is a specific example of the electric lock control unit. Further, the card information is a specific example of the first identification information, the registration information is a specific example of the second identification information, and the checkout date / time information is a specific example of the use end date / time information.

  FIG. 2 shows processing performed by the lock device 1. As shown in FIG. 2, the locking device 1 initially sets the transmission interval of the card communication signal to the initial transmission interval when the locking device 1 starts operation, and the IC card 2 is registered in the locking device 1. From the period until the checkout date and time indicated by the checkout date and time information included in the card information of the IC card 2 arrives, the transmission interval of the card communication signal is set as the transmission interval (first transmission interval) during the usage period. After the setting and the checkout date and time have arrived, a process of changing the transmission interval of the card communication signal to the transmission interval outside the use period (second transmission interval) is performed. The initial transmission interval is, for example, 2 seconds, the transmission interval during the usage period is, for example, 0.5 seconds, and the transmission interval outside the usage period is longer than the transmission interval during the usage period, for example, 2 seconds. As a result, the hotel user checks in the hotel, receives the IC card 2, and uses the IC card 2 for the first time with respect to the lock device 1 attached to the door of the room permitted to use. Until the check-out date and time for the user arrives, the transmission interval of the card communication signal becomes shorter than other periods. That is, during the period in which the user is using the room, the transmission interval of the card communication signal is shorter than in other periods. Hereafter, the process by such a locking device 1 is demonstrated concretely.

  The processing by the locking device 1 shown in FIG. 2 includes processing for registering an unregistered IC card 2 in the locking device 1, and determining whether the IC card 2 is correct or not when the registered IC card 2 is used. A process for controlling the lock 31 is included.

  First, a process for registering an unregistered IC card 2 in the lock device 1 will be described. In FIG. 2, when the locking device 1 starts operation, the transmission interval setting unit 14 of the card reader unit 11 sets the transmission interval of the card communication signal as the initial transmission interval (step S1). Subsequently, the transmission interval setting unit 14 of the card reader unit 11 determines whether or not the check-out date / time has arrived (step S2). This determination is meaningful after the IC card 2 is registered. Therefore, “NO” is determined at the stage before the IC card 2 is registered, and as a result, the process immediately proceeds to step S4.

  Subsequently, the communication control unit 13 of the card reader unit 11 transmits a card communication signal at the transmission interval set at the present time (step S4), and the card information of the IC card 2 is transmitted each time the card communication signal is transmitted once. Is received (step S5). And the communication control part 13 is a set of processing including the one-time transmission of the card communication signal and the determination as to whether or not the card information of the IC card 2 has been received until the card information of the IC card 2 is received. Is repeatedly performed at the transmission interval set at the present time. At this time, since the transmission interval of the card communication signal is set to the initial transmission interval, the communication control unit 13 repeats the above set of processes at the initial transmission interval.

  During this time, when the IC card 2 approaches the lock device 1, the IC card 2 receives the card communication signal, obtains power, and transmits the card information to the lock device 1. In the lock device 1, when the communication control unit 13 receives this card information (step S5: YES), the card determination unit 18 of the card reader unit 11 stores the card information transmitted from the IC card 2 and the storage unit 16. The registered information is compared to determine whether or not the two match, and based on the determination result, it is determined whether or not the IC card 2 is a correct IC card (step S6).

  If the IC card 2 has not been registered, the card determination unit 18 determines “NO” in step S6. Subsequently, the card registration unit 17 determines whether or not the IC card 2 should be registered (step S7). For example, the storage unit 16 of the card reader unit 11 stores in advance the hotel code and room number of the hotel in which the lock device 1 is provided, and the hotel code included in the card information transmitted from the IC card 2 and If the room number matches the hotel code and the room number stored in advance in the storage unit 16, the card registration unit 17 determines that the IC card 2 should be registered (step S7: YES). In this case, the card registration unit 17 stores the card information as registration information in the storage unit 16 (step S8). If past registration information is stored in the storage unit 16 at this time, the past registration information is deleted.

  When the IC card 2 is registered, the transmission interval setting unit 14 changes the transmission interval of the card communication signal to the transmission interval during the usage period (step S9). Thereafter, the process returns to step S2.

  On the other hand, if the hotel code and room number included in the card information transmitted from the IC card 2 do not match the hotel code and room number stored in advance in the storage unit 16 in step S7, the card registration unit 17 determines that the IC card 2 should not be registered (step S7: NO). In this case, the process returns to step S2. In this case, the transmission interval of the card communication signal is not changed.

  Next, the operation of the lock device 1 when the registered IC card 2 is used will be described. As described above, when the IC card 2 is registered, after the transmission interval of the card communication signal is changed to the transmission interval during the use period in step S9, the process returns to step S2.

  Subsequently, the transmission interval setting unit 14 determines whether or not the checkout date / time has arrived (step S2). As described above, the checkout date / time information is included in the card information. Since the registration information is the same as the card information of the IC card 2 currently registered, the registration information is the same as the check-out date / time information included in the card information of the IC card 2 currently registered. Contains checkout date and time information. The date / time information acquisition unit 15 of the card reader unit 11 reads the check-out date / time information included in the registration information from the storage unit 16 in step S2. Subsequently, the transmission interval setting unit 14 recognizes the current date and time using a clock built in the lock device 1, and the checkout indicated by the checkout date and time information read from the storage unit 16 by the date and time information acquisition unit 15. The date and time are compared with the current date and time to determine whether or not the check-out date has arrived.

  When the check-out date / time has not arrived (step S2: NO), the communication control unit 13 transmits a card communication signal at the transmission interval set at the present time (step S4), and the card communication signal is set to 1. It is determined whether or not the card information of the IC card 2 has been received every time it is transmitted (step S5). And the communication control part 13 is a set of processing including the one-time transmission of the card communication signal and the determination as to whether or not the card information of the IC card 2 has been received until the card information of the IC card 2 is received. Is repeatedly performed at the transmission interval set at the present time. At this time, since the transmission interval of the card communication signal is set to the transmission interval during the usage period, the communication control unit 13 repeats the above set of processes at the transmission interval during the usage period.

  During this time, when the IC card 2 approaches the lock device 1 and the IC card 2 transmits the card information, and the communication control unit 13 receives the card information in the lock device 1 (step S5: YES), the card determination unit 18 Compares the card information transmitted from the IC card 2 with the registration information stored in the storage unit 16 to determine whether or not they match, and based on the determination result, the IC card 2 is correct. It is determined whether the card is an IC card (step S6).

  When the card information transmitted from the IC card 2 matches the registration information stored in the storage unit 16, the IC card 2 is an IC card currently registered. In this case, the card determination unit 18 determines that the IC card is a correct IC card (step S6: YES). In this case, the electric lock control unit 21 outputs a control signal to the electric lock 31 to cause the electric lock 31 to be locked or unlocked. When the electric lock 31 performs the locking operation, the room door is locked, and when the electric lock 31 performs the unlocking operation, the room door is unlocked.

  On the other hand, if the card information transmitted from the IC card 2 and the registration information stored in the storage unit 16 do not match, the IC card 2 is not currently registered, that is, an unregistered IC card. Therefore, the card determination unit 18 determines that the IC card is not a correct IC card. In this case, as described above, when the IC card 2 satisfies the predetermined registration condition (matching of hotel code and room number), the IC card 2 is registered by the card registration unit 17. . Then, the process returns to step S2 while the transmission interval of the card communication signal is maintained at the transmission interval during the use period. On the other hand, if the IC card 2 does not satisfy the predetermined registration condition described above, the IC card 2 is not registered, and the process immediately returns to step S2 without changing the transmission interval of the card communication signal.

  On the other hand, as a result of determining whether or not the checkout date / time has arrived in step S2, if the checkout date / time has arrived (step S2: YES), the transmission interval setting unit 14 transmits the card communication signal. The interval is changed to a transmission interval outside the use period (step S3). Thereafter, the process proceeds to step S4. As a result, a set of processes including a single transmission of the card communication signal and a determination as to whether or not the card information of the IC card 2 has been received is repeated at an out-of-use period transmission interval.

  As described above, according to the lock device 1 according to the embodiment of the present invention, the transmission interval of the card communication signal can be shortened and the response of the lock device 1 can be improved while the user is using the room. On the other hand, during the period when the user is not using the room, the transmission interval of the card communication signal is lengthened, the power consumption of the lock device 1 is reduced, and the life of the battery 22 of the lock device 1 is lengthened. Can do.

  In the above-described embodiment, the transmission interval during the usage period is set to 0.5 seconds, for example. However, the transmission interval during the usage period may be set to less than 0.5 seconds within a range in which a satisfactory response of the lock device 1 can be realized. However, it may be longer than 0.5 seconds. In the embodiment described above, the transmission interval outside the usage period is set to 2 seconds, for example. However, the transmission interval outside the usage period is set to 2 seconds within a range in which the power consumption of the lock device 1 can be reduced (long battery life). Or less than 2 seconds. However, the transmission interval outside the usage period is made longer than the transmission interval during the usage period. The initial transmission interval can be determined from the same viewpoint as the out-of-use transmission interval.

  Moreover, although the case where the locking device 1 is applied to a hotel is taken as an example in the above-described embodiment, the present invention is not limited to this. The locking device of the present invention can be applied to various management objects other than hotels. As described above, when the lock device 1 is applied to a hotel, it is appropriate to set the checkout date and time as the end date and time of use of the IC card 2, but when the lock device 1 is applied to another management target For example, the use end date and time of the management target can be set as the use end date and time of the IC card 2.

  In the above-described embodiment, the case where the non-contact type IC card 2 is used has been described as an example. However, the present invention is not limited to this and can be applied to the case where a contact type IC card is used. Similarly to the IC card 2, a portable telephone function device that functions as a key and can be easily carried is a mobile phone, a smart phone, or the like. In the locking device of the present invention, a mobile phone, a smart phone, or the like may be used instead of the IC card 2.

  In the above-described embodiment, the case where it is determined that the IC card 2 is the correct IC card by matching the card information and the registration information has been described as an example. When the information and the information stored in the storage unit 16 of the lock device 1 have a predetermined correspondence relationship, it may be determined that the IC card is a correct IC card.

  In the above-described embodiment, the case where the check-out date / time information is acquired from the card information (registration information) received from the IC card 2 is taken as an example, but the present invention is not limited to this. The check-out date / time information may be acquired from another route. For example, when a user checks in at a hotel front desk, the front staff inputs checkout date and time information into a management personal computer installed at the front desk, and checks the lock device 1 from the management computer. The out date / time information may be wirelessly communicated.

  Further, the present invention can be appropriately changed without departing from the gist or concept of the invention that can be read from the claims and the entire specification, and the lock device accompanying such a change is also included in the technical concept of the present invention. included.

1 Locking device 2 IC card (portable key function device)
11 Card reader unit 12 Antenna 13 Communication control unit (communication signal transmitting means, identification information receiving means)
14 Calling interval setting unit (calling interval setting means)
15 Date / time information acquisition unit (date / time information acquisition means)
16 Storage unit (storage means)
17 Card registration part 18 Card judgment part (card judgment means)
21 Electric lock control unit (electric lock control means)
22 battery 23 housing 31 electric lock

Claims (5)

A locking device for controlling the operation of the electric lock,
A communication signal transmitting means for transmitting a communication signal to a portable key function device that is a portable device that functions as a key;
A transmission interval setting means for setting a transmission interval of the communication signal;
Identification information receiving means for receiving first identification information transmitted from the portable key function device that has received the communication signal transmitted by the communication signal transmitting means;
Storage means for storing second identification information that is the same as or corresponding to the first identification information;
Card determining means for determining whether the first identification information received by the identification information receiving means and the second identification information stored in the storage means are the same or in correspondence;
As a result of determination by the card determination means, when the first identification information received by the identification information receiving means and the second identification information stored in the storage means are the same or in a corresponding relationship, the electric lock Electric lock control means for unlocking operation,
Date and time information acquisition means for acquiring use end date and time information indicating the use end date and time of the portable key function device;
The transmission interval setting means increases the transmission interval of the communication signal when the use end date and time of the portable key function device indicated by the use end date and time information acquired by the date and time information acquisition means has arrived. Locking device to do. The first identification information of the portable key function device includes the use end date / time information of the portable key function device,
2. The lock device according to claim 1, wherein the date information acquisition unit acquires use end date information of the portable key function device from first identification information transmitted from the portable key function device. .   The transmission interval setting means sets the transmission interval of the communication signal to the first transmission interval when the first identification information transmitted from the portable key function device is received for the first time by the identification information receiving means. Then, when the use end date / time indicated by the use end date / time information acquired by the date / time information acquisition means arrives, the transmission interval of the communication signal is set to be longer than the first transmission interval. The locking device according to claim 1, wherein the locking device is set to an interval.   4. The lock device according to claim 1, wherein the portable key function device is a passive non-contact IC card.   5. The locking device according to claim 1, further comprising: a casing forming an outer shell; and a battery accommodated in the casing, wherein the locking apparatus is operated by electric power supplied from the battery.

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