WO2018122915A1 - エレベーターの制御装置 - Google Patents
エレベーターの制御装置 Download PDFInfo
- Publication number
- WO2018122915A1 WO2018122915A1 PCT/JP2016/088691 JP2016088691W WO2018122915A1 WO 2018122915 A1 WO2018122915 A1 WO 2018122915A1 JP 2016088691 W JP2016088691 W JP 2016088691W WO 2018122915 A1 WO2018122915 A1 WO 2018122915A1
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- WIPO (PCT)
- Prior art keywords
- unit
- car
- button
- call
- hall
- Prior art date
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B66—HOISTING; LIFTING; HAULING
- B66B—ELEVATORS; ESCALATORS OR MOVING WALKWAYS
- B66B1/00—Control systems of elevators in general
- B66B1/34—Details, e.g. call counting devices, data transmission from car to control system, devices giving information to the control system
- B66B1/36—Means for stopping the cars, cages, or skips at predetermined levels
- B66B1/44—Means for stopping the cars, cages, or skips at predetermined levels and for taking account of disturbance factors, e.g. variation of load weight
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B66—HOISTING; LIFTING; HAULING
- B66B—ELEVATORS; ESCALATORS OR MOVING WALKWAYS
- B66B1/00—Control systems of elevators in general
- B66B1/34—Details, e.g. call counting devices, data transmission from car to control system, devices giving information to the control system
- B66B1/46—Adaptations of switches or switchgear
- B66B1/50—Adaptations of switches or switchgear with operating or control mechanisms mounted in the car or cage or in the lift well or hoistway
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B66—HOISTING; LIFTING; HAULING
- B66B—ELEVATORS; ESCALATORS OR MOVING WALKWAYS
- B66B5/00—Applications of checking, fault-correcting, or safety devices in elevators
- B66B5/02—Applications of checking, fault-correcting, or safety devices in elevators responsive to abnormal operating conditions
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B66—HOISTING; LIFTING; HAULING
- B66B—ELEVATORS; ESCALATORS OR MOVING WALKWAYS
- B66B5/00—Applications of checking, fault-correcting, or safety devices in elevators
- B66B5/02—Applications of checking, fault-correcting, or safety devices in elevators responsive to abnormal operating conditions
- B66B5/021—Applications of checking, fault-correcting, or safety devices in elevators responsive to abnormal operating conditions the abnormal operating conditions being independent of the system
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B66—HOISTING; LIFTING; HAULING
- B66B—ELEVATORS; ESCALATORS OR MOVING WALKWAYS
- B66B5/00—Applications of checking, fault-correcting, or safety devices in elevators
- B66B5/02—Applications of checking, fault-correcting, or safety devices in elevators responsive to abnormal operating conditions
- B66B5/14—Applications of checking, fault-correcting, or safety devices in elevators responsive to abnormal operating conditions in case of excessive loads
Definitions
- the present invention relates to an elevator control device.
- the present invention has been made to solve the above problems.
- the purpose is to provide an elevator control device that can suppress a decrease in convenience when an operation section of the elevator breaks down.
- the elevator control device includes: a call registration unit that registers a call corresponding to the operated operation unit when an operation is performed on an operation unit provided in the elevator hall or the car; and the operation unit includes: A failure determination unit that determines whether or not there is a failure, and the call registration unit is provided on a normal operation unit provided in the same hall or the same cage as the operation unit determined to have failed by the failure determination unit.
- a failure determination unit that determines whether or not there is a failure
- the call registration unit is provided on a normal operation unit provided in the same hall or the same cage as the operation unit determined to have failed by the failure determination unit.
- the call registration unit performs a special operation on a normal operation unit provided in the same hall or the same car as the operation unit determined to have failed by the failure determination unit. If a failure occurs, a call corresponding to the operation unit determined to have failed is registered. For this reason, according to this invention, the fall of the convenience when the operation part of an elevator fails can be suppressed.
- FIG. 4 is a first flowchart illustrating an operation example of the control device according to the first embodiment. 4 is a second flowchart illustrating an operation example of the control device according to the first embodiment. 6 is a third flowchart illustrating an operation example of the control device according to the first embodiment. It is a hardware block diagram of a control apparatus.
- Embodiment 1 It is a schematic diagram which shows an example of the structure of an elevator.
- the elevator 1 includes a hoistway 2, a hoisting machine 3, a rope 4, a car 5, a counterweight 6, and a control device 7.
- the hoistway 2 is formed, for example, so as to penetrate each floor of a building (not shown).
- the hoisting machine 3 is provided, for example, in a machine room (not shown).
- the rope 4 is wound around the hoisting machine 3.
- the car 5 and the counterweight 6 are suspended in the hoistway 2 by the rope 4.
- the car 5 and the counterweight 6 move up and down when the hoisting machine 3 is driven.
- the hoisting machine 3 is controlled by the control device 7.
- the control device 7 is electrically connected to the hoisting machine 3 and the maintenance device 8.
- the maintenance device 8 has a function of communicating with the monitoring center 9.
- the control device 7 and the maintenance device 8 are provided, for example, in a building where the elevator 1 is installed.
- the monitoring center 9 is provided in a building different from the building where the elevator 1 is installed, for example.
- the monitoring center 9 is, for example, a server provided in a management company for the elevator 1.
- Fig. 2 is an external view of the elevator hall.
- a landing door 10 and a landing operation panel 11 are provided at the landing.
- the landing door 10 and the landing operation panel 11 are provided on each floor where the car 5 can be stopped, for example.
- the hall operating panel 11 is provided on, for example, a wall surface near the hall door 10.
- the hall operation panel 11 includes, for example, a hall call button 12 and a hall notification unit 13.
- As the hall call button 12 for example, an upward button 12a and a downward button 12b are provided.
- the hall notification unit 13 for example, a hall monitor 14 and a hall speaker 15 are provided.
- the hall notification unit 13 may be provided separately from the hall operation panel 11.
- the landing notification unit 13 may be provided in a three-way frame of the landing door 10, for example.
- the hall call button 12 works as an elevator operation unit.
- the hall call button 12 accepts an operation for generating a hall call.
- the upward button 12a is used, for example, to generate a hall call with the upward direction as a destination.
- the down button 12b is used, for example, to generate a hall call with a down direction as a destination.
- the hall notification unit 13 notifies the hall of information.
- the hall monitor 14 has a function of displaying visual information such as characters and images.
- the hall speaker 15 has a function of broadcasting sound information such as a buzzer sound and a sound announcement.
- Fig. 3 is an external view of the elevator car.
- the car 5 is provided with a car door 16 and a car operation panel 17.
- the in-car operation panel 17 is provided on, for example, a wall surface near the car door 16.
- the in-car operation panel 17 includes, for example, a door open button 18, a door close button 19, a destination floor button 20, and an in-car notification unit 21.
- a plurality of destination floor buttons 20 are provided.
- an in-car notification unit 21 for example, an in-car monitor 22 and an in-car speaker 23 are provided.
- the in-car notification unit 21 may be provided separately from the in-car operation panel 17.
- the door opening button 18, the door closing button 19, and the destination floor button 20 function as an operation unit of the elevator.
- Each destination floor button 20 is provided corresponding to each floor at which the car 5 can stop, for example.
- the destination floor button 20 receives, for example, an operation for generating a car call with the corresponding floor as the destination.
- the in-car notifying unit 21 informs the car 5 of information.
- the car monitor 22 has a function of displaying visual information such as characters and images.
- the car speaker 23 has a function of broadcasting sound information such as a buzzer sound and a sound announcement.
- FIG. 4 is a functional block diagram of the control device in the first embodiment.
- the control device 7 includes the hoisting machine 3, the upward button 12 a, the downward button 12 b, the landing notification unit 13, the door opening button 18, the door closing button 19, the destination floor button 20, and the in-car notification.
- the unit 21 and the scale device 24 are electrically connected.
- the control device 7 includes a call registration unit 25, an operation control unit 26, a storage unit 27, a failure determination unit 28, a notification control unit 29, a current detection unit 30, a scale value detection unit 31, a fullness determination unit 32, and a threshold setting unit 33. Have.
- the weighing device 24 measures the loaded weight of the car 5.
- the scale device 24 is provided at, for example, the end of the rope 4 or the floor of the car 5.
- the call registration unit 25 registers a call corresponding to the operated operation unit when a normal operation is performed on the operation unit provided in the hall of the elevator 1 or the car 5. For example, when the up button 12a or the down button 12b is pressed, the call registration unit 25 registers a hall call in a direction corresponding to the pressed button. For example, when the destination floor button 20 is pressed, the call registration unit 25 registers a car call corresponding to the pressed destination floor button 20.
- the operation control unit 26 controls the operation of the elevator 1 by controlling the driving of the hoisting machine 3. That is, the operation control unit 26 controls the movement of the car 5. For example, the operation control unit 26 causes the car 5 to respond to the registered hall call and car call.
- the storage unit 27 stores, for example, a call registration history and an operation history.
- the call registration history includes, for example, information indicating the date and time when the call was registered, the operated hall call button 12, the operated destination floor button 20, and the like.
- the driving history includes, for example, information indicating the date and time when the car 5 started moving, the date and time when the car 5 stopped, the floor where the car 5 stopped, and the like.
- the failure determination unit 28 determines whether or not the operation unit of the elevator 1 has failed. For example, the failure determination unit 28 determines whether the hall call button 12 and the destination floor button 20 are out of order based on the call registration history and the driving history.
- the failure determination unit 28 does not register an upward hall call corresponding to a certain upward button 12a within a certain period, and the car 5 is moved upward within the certain period. If it is, it is determined that the up button 12a has failed. In the failure determination unit 28, for example, a downward hall call corresponding to a certain downward button 12b is not registered within a certain period, and the car 5 is moved downward within the certain period. If it is, the down button 12b is determined to have failed. That is, the failure determination unit 28 determines that the hall call button 12 has failed, for example, when a hall call based on a normal operation on a certain hall call button 12 has not been registered for a certain period of time.
- the fixed period used for determining the failure of the hall call button 12 is set for each building, every elevator, every floor, every hall, every time zone, every hall operation panel 11 or every individual hall call button 12, for example. May be.
- the certain period may be set for each floor, for example, based on the frequency at which hall calls are registered in normal times. That is, for example, when attention is paid to a certain hall call button 12, when it is derived from the operation history that a hall call by the button is registered at least once every 3 minutes on average, the above-mentioned fixed period A period of 3 minutes or more may be set.
- the failure determination unit 28 determines that the floor button 20 has failed. In other words, the failure determination unit 28 determines that the destination floor button 20 has failed when, for example, a state in which a car call based on a normal operation on a certain destination floor button 20 has not been registered continues for a certain period of time.
- the above-mentioned fixed period used for failure determination of the destination floor button 20 may be set, for example, for each building, for each elevator 1, for each car 5, for each time zone, or for each individual destination floor button 20.
- the predetermined period may be set for each destination floor button 20 based on, for example, the frequency with which a car call is registered in normal times. That is, for example, when attention is paid to a certain destination floor button 20, when it is derived from the operation history that a car call by the button is registered at least once every 10 minutes on average, the above-mentioned fixed period A period of 10 minutes or more may be set.
- the special operation for the operation unit of the elevator 1 is validated.
- the special operation is an operation performed on at least one normal operation unit provided in the same place as the operation unit determined to have failed by the failure determination unit 28.
- Special operations include hall special operations and in-car special operations.
- a normal operation unit is an operation unit that has not been determined to have failed by the failure determination unit 28.
- the notification control unit 29 controls operations of the hall notification unit 13 and the in-car notification unit 21 which are notification units of the elevator 1.
- the notification control unit 29 notifies information for guiding a special operation from the notification unit provided in the same hall or the same car 5 as the operation unit determined to have failed by the failure determination unit 28.
- the hall special operation may be, for example, pressing and holding the normal hall call button 12 for a predetermined time or more.
- the hall special operation may be, for example, pressing the normal hall call button 12 repeatedly for a certain number of times within a certain time.
- the call registration unit 25 calls the upward landing call. Register.
- the call registration unit 25 calls the downward hall call Register.
- the special operation in the car may be, for example, simultaneously pressing a plurality of normal destination floor buttons 20 adjacent to the destination floor button 20 determined to have failed. That is, for example, the special operation in the car when the destination floor button 20 corresponding to the fifth floor breaks down simultaneously with the normal destination floor button 20 corresponding to the fourth floor and the normal destination floor button 20 corresponding to the sixth floor. It may be a push. Even if the special operation in the car is, for example, repeatedly pressing the door open button or the door close button provided in the same car 5 as the destination floor button 20 determined to have failed as many times as the floor number of the target floor. Good.
- the call registration unit 25 When a special operation in the car is performed on the normal destination floor button 20 or the like provided in the same car 5 as the destination floor button 20 determined to have failed, the call registration unit 25 The car call corresponding to the destination floor button 20 determined to have been registered is registered.
- the current detection unit 30 detects the motor current of the hoisting machine 3.
- the scale detection unit 31 detects a measurement value obtained by the scale device 24. The detection by the current detection unit 30 and the scale detection unit 31 is performed, for example, when the car 5 is stopped and opened.
- the fullness determination unit 32 determines that the car 5 is full when the value detected by the scale value detection unit 31 is greater than a preset fullness determination threshold. When it is determined that the car 5 is full, the notification control unit 29 notifies warning information from the in-car notification unit 21, for example. When it is determined that the car 5 is full, the operation control unit 26 does not start the movement of the car 5, for example.
- the threshold setting unit 33 has a function of changing the fullness determination threshold.
- the threshold value setting unit 33 for example, after the overcurrent is detected by the current detection unit 30, when the car 5 responds to the next upward call, the scale value detection unit 31 when the overcurrent is detected. Is set as the fullness determination threshold. In this case, since the fullness determination threshold value decreases, the number of people who can get in the car 5 at a time is limited.
- the threshold setting unit 33 does not change the fullness determination threshold when the car 5 responds to the next downward call even after the overcurrent is detected by the current detection unit 30, for example.
- the operation control unit 26 moves the car 5 until a value equal to or greater than the value detected by the scale detection unit 31 when the overcurrent is detected is detected by the scale detection unit 31. You may perform control not to start.
- FIG. 5 is a first flowchart illustrating an operation example of the control device according to the first embodiment.
- FIG. 5 shows the operation of the control device when the hall call button 12 fails.
- the control device 7 determines whether or not there is a hall call button 12 determined to be faulty (step S101). If there is no hall call button 12 determined to be faulty, the process of step S101 is repeated. If there is a hall call button 12 determined to be out of order, the hall special operation is validated (step S102). Subsequent to step S102, guidance about the hall special operation is notified to the hall (step S103).
- the control device 7 determines whether or not the normal hall call button 12 has been pressed (step S104). If the normal hall call button 12 is not pressed, the process of step S104 is repeated. When the normal hall call button 12 is pressed, the control device 7 determines whether or not a hall special operation has been performed (step S105).
- step S105 If it is determined in step S105 that the hall special operation has been performed, the control device 7 registers the hall call corresponding to the hall call button 12 determined to be faulty (step S106). When it is determined in step S105 that the hall special operation has not been performed, the control device 7 registers a hall call corresponding to the normal hall call button 12 (step S107).
- FIG. 6 is a second flowchart illustrating an operation example of the control device according to the first embodiment.
- FIG. 6 shows the operation of the control device when the destination floor button 20 fails.
- the control device 7 determines whether or not there is a destination floor button 20 determined to be faulty (step S201). If there is no destination floor button 20 determined to be faulty, the process of step S201 is repeated. When there is a destination floor button 20 determined as a failure, the special operation in the car is validated (step S202). Subsequent to step S202, guidance about the special operation in the car is notified in the car 5 (step S203).
- the control device 7 determines whether or not the normal destination floor button 20 has been pressed (step S204). When the normal destination floor button 20 is not pressed, the process of step S204 is repeated. When the normal destination floor button 20 is pressed, the control device 7 determines whether or not a special car operation has been performed (step S205).
- step S205 When it is determined in step S205 that the special operation in the car has been performed, the control device 7 registers a car call corresponding to the destination floor button 20 determined to be faulty (step S206). If it is determined in step S205 that the special operation in the car has not been performed, the control device 7 registers a car call corresponding to the pressed destination floor button 20 (step S207).
- FIG. 7 is a third flowchart illustrating an operation example of the control device according to the first embodiment.
- FIG. 7 shows the operation of the control device when an overcurrent flows through the motor of the hoisting machine 3.
- the control device 7 determines whether or not an overcurrent has flowed through the motor of the hoisting machine 3 (step S301). When no overcurrent flows through the motor of the hoisting machine 3, the process of step S301 is repeated. When an overcurrent flows through the motor of the hoisting machine 3, the control device 7 stores the measurement value of the scale device 24 when the overcurrent flows (step S302).
- the control device 7 determines whether or not the call is registered (step S303). If the call is not registered, the process of step S303 is repeated. If the call is registered, the control device 7 determines whether or not the call that the car 5 will answer next is an upward call (step S304).
- Step S304 when it is determined that the call that the car 5 will respond next is an upward call, the control device 7 sets the stored measurement value of the scale device 24 as a fullness determination threshold value (Step S305). When it is determined in step S304 that the call that the car 5 will answer next is a downward call, the control device 7 does not change the fullness determination threshold value (step S306).
- the call registration unit 25 registers a call corresponding to the operated operation unit when an operation is performed on the landing of the elevator 1 or the operation unit provided in the car 5.
- the failure determination unit 28 determines whether or not the operation unit has failed.
- the call registration unit 25 performs a preset special operation on at least one normal operation unit provided in the same hall or the same car 5 as the operation unit determined to have failed by the failure determination unit 28. If a failure occurs, a call corresponding to the operation unit determined to have failed is registered. For this reason, according to the first embodiment, the malfunctioning operation unit can be replaced with another normal operation unit. As a result, it is possible to suppress a decrease in convenience when the operation unit of the elevator breaks down. Moreover, since a time delay until the maintenance inspection is performed can be obtained, the burden on the maintenance worker can be reduced.
- the call registration unit 25 operates the hall call button that is operated when an operation is performed on the upward button 12a or the downward button 12b that is the hall call button 12 provided in the hall of the elevator 1.
- a hall call corresponding to 12 is registered.
- the failure determination unit 28 determines whether or not the hall call button 12 is broken.
- the call registration unit 25 is an upward landing when a special operation is performed on a normal downward button 12b provided at the same landing as the upward button 12a determined to have failed by the failure determination unit 28.
- Register a call The call registration unit 25 receives a downward landing when a special operation is performed on the normal upward button 12a provided at the same landing as the downward button 12b determined to have failed by the failure determination unit 28.
- Register a call Therefore, according to the first embodiment, the malfunctioning hall call button 12 can be replaced with another normal hall call button 12. As a result, it is possible to suppress a decrease in convenience when the elevator hall call button 12 breaks down.
- the failure determination unit 28 does not register an upward hall call corresponding to a certain upward button 12a within a certain period and moves the car 5 upward within the certain period. When it is performed, it is determined that the up button 12a has failed.
- the failure determination unit 28 determines that a downward hall call corresponding to a certain downward button 12b is not registered within a certain period and the car 5 is moved downward within the certain period. It is determined that the down button 12b has failed. Therefore, according to the first embodiment, it is possible to determine whether or not the hall call button 12 is broken with a simple configuration.
- the call registration unit 25 registers a car call corresponding to the operated destination floor button 20 when an operation is performed on the destination floor button 20 provided in the car 5 of the elevator 1.
- the failure determination unit 28 determines whether the destination floor button 20 is defective.
- the call registration unit 25 determines that a failure has occurred when a special operation is performed on a normal operation unit provided in the same car 5 as the destination floor button 20 determined to have failed by the failure determination unit 28.
- a car call corresponding to the determined destination floor button 20 is registered. Therefore, according to the first embodiment, the malfunctioning destination floor button 20 can be replaced with another normal destination floor button 20 or the like. As a result, it is possible to suppress a decrease in convenience when the destination floor button 20 of the elevator breaks down.
- the failure determination unit 28 when a car call corresponding to a certain destination floor button 20 is not registered within a certain period and the car 5 is moved within the certain period, It is determined that the destination floor button 20 has failed. Therefore, according to the first embodiment, it is possible to determine whether or not the destination floor button 20 is out of order with a simple configuration.
- the notification control unit 29 uses information that guides a special operation for registering a call corresponding to the operation unit determined to have failed by the failure determination unit 28 as the operation unit determined to have failed. From the notification section provided at the same hall or the same car 5. For this reason, according to Embodiment 1, it is possible to guide the special operation to the elevator user. As a result, it is possible to suppress a decrease in convenience when the operation unit of the elevator breaks down.
- the current detection unit 30 detects the motor current of the hoisting machine 3 of the elevator 1.
- the scale value detection unit 31 detects a measurement value by the scale device 24 that measures the load weight of the car 5 of the elevator 1.
- the fullness determination unit 32 determines that the car 5 is full when the value detected by the scale value detection unit 31 is greater than a preset fullness determination threshold.
- the threshold setting unit 33 sets the value detected by the scale detection unit 31 when the overcurrent is detected. Set as the fullness threshold.
- the operation of the elevator 1 is continued with the motor load reduced more than usual. Can do. As a result, it is possible to suppress a decrease in convenience until the elevator hoist is serviced.
- the special operation when a special operation is activated based on a determination that a certain operation unit has failed, a call based on a normal operation for the operation unit is registered.
- the operation is invalidated. That is, for example, even if it is determined that the normal operation unit has failed because the number of users of the elevator 1 is accidentally small, the special operation is invalidated if the normal operation unit is operated. For this reason, it is possible to prevent unnecessary special operations from continuing to be effective.
- the notification control unit 29 determines that the operation unit of the elevator 1 has failed through the maintenance device 8 and that an overcurrent has flowed to the motor of the hoisting machine 3.
- the monitoring center 9 may be notified.
- the maintenance worker of the elevator 1 can quickly grasp the status of the elevator 1.
- FIG. 8 is a hardware configuration diagram of the control device.
- the function is realized by a processing circuit.
- the processing circuit may be dedicated hardware 50.
- the processing circuit may include a processor 51 and a memory 52.
- a part of the processing circuit is formed as dedicated hardware 50, and may further include a processor 51 and a memory 52.
- FIG. 8 shows an example in which the processing circuit is partly formed as dedicated hardware 50 and includes a processor 51 and a memory 52.
- the processing circuit may be, for example, a single circuit, a composite circuit, a programmed processor, a parallel programmed processor, an ASIC, an FPGA, or the like. The combination is applicable.
- the processing circuit includes at least one processor 51 and at least one memory 52
- the functions of the unit 31, the fullness determination unit 32, and the threshold setting unit 33 are realized by software, firmware, or a combination of software and firmware.
- Software and firmware are described as programs and stored in the memory 52.
- the processor 51 reads out and executes the program stored in the memory 52, thereby realizing the function of each unit.
- the processor 51 is also referred to as a CPU (Central Processing Unit), a central processing unit, a processing unit, an arithmetic unit, a microprocessor, a microcomputer, and a DSP.
- CPU Central Processing Unit
- the memory 52 corresponds to, for example, a nonvolatile or volatile semiconductor memory such as a RAM, a ROM, a flash memory, an EPROM, and an EEPROM, a magnetic disk, a flexible disk, an optical disk, a compact disk, a mini disk, and a DVD.
- a nonvolatile or volatile semiconductor memory such as a RAM, a ROM, a flash memory, an EPROM, and an EEPROM, a magnetic disk, a flexible disk, an optical disk, a compact disk, a mini disk, and a DVD.
- the processing circuit can realize each function of the control device 7 by hardware, software, firmware, or a combination thereof.
- the present invention can be applied to an elevator.
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Abstract
Description
エレベーターの構造の一例を示す模式図である。
2 昇降路
3 巻上機
4 ロープ
5 かご
6 釣合おもり
7 制御装置
8 保守装置
9 監視センター
10 乗場ドア
11 乗場操作盤
12 乗場呼びボタン
12a 上方向ボタン
12b 下方向ボタン
13 乗場報知部
14 乗場モニタ
15 乗場スピーカー
16 かごドア
17 かご内操作盤
18 戸開ボタン
19 戸閉ボタン
20 行先階ボタン
21 かご内報知部
22 かご内モニタ
23 かご内スピーカー
24 秤装置
25 呼び登録部
26 運転制御部
27 記憶部
28 故障判定部
29 報知制御部
30 電流検出部
31 秤値検出部
32 満員判定部
33 閾値設定部
50 専用ハードウェア
51 プロセッサ
52 メモリ
Claims (8)
- エレベーターの乗場又はかごに設けられた操作部に対する操作が行われた場合に、操作された操作部に対応する呼びを登録する呼び登録部と、
操作部が故障しているか否かを判定する故障判定部と、
を備え、
前記呼び登録部は、前記故障判定部により故障したと判定された操作部と同じ乗場又は同じかごに設けられている正常な操作部に対して特殊操作が行われた場合に、当該故障したと判定された操作部に対応する呼びを登録するエレベーターの制御装置。 - 前記呼び登録部は、エレベーターの乗場に設けられた乗場呼びボタンである上方向ボタン又は下方向ボタンに対する操作が行われた場合に、操作された乗場呼びボタンに対応する乗場呼びを登録し、
前記故障判定部は、乗場呼びボタンが故障しているか否かを判定し、
前記呼び登録部は、前記故障判定部により故障したと判定された上方向ボタンと同じ乗場に設けられている正常な下方向ボタンに対して特殊操作が行われた場合に上方向の乗場呼びを登録し、前記故障判定部により故障したと判定された下方向ボタンと同じ乗場に設けられている正常な上方向ボタンに対して特殊操作が行われた場合に下方向の乗場呼びを登録する請求項1に記載のエレベーターの制御装置。 - 前記故障判定部は、ある上方向ボタンに対応する上方向の乗場呼びが一定期間内に登録されておらず且つ当該一定期間内に上方向へのかごの移動が行われている場合に当該上方向ボタンが故障したと判定し、ある下方向ボタンに対応する下方向の乗場呼びが一定期間内に登録されておらず且つ当該一定期間内に下方向へのかごの移動が行われている場合に当該下方向ボタンが故障したと判定する請求項2に記載のエレベーターの制御装置。
- 前記呼び登録部は、エレベーターのかごに設けられた行先階ボタンに対する操作が行われた場合に、操作された行先階ボタンに対応するかご呼びを登録し、
前記故障判定部は、行先階ボタンが故障しているか否かを判定し、
前記呼び登録部は、前記故障判定部により故障したと判定された行先階ボタンと同じかごに設けられている正常な操作部に対して特殊操作が行われた場合に、当該故障したと判定された行先階ボタンに対応するかご呼びを登録する請求項1から3のいずれか1項に記載のエレベーターの制御装置。 - 前記故障判定部は、ある行先階ボタンに対応するかご呼びが一定期間内に登録されておらず且つ当該一定期間内にかごの移動が行われている場合に当該行先階ボタンが故障したと判定する請求項4に記載のエレベーターの制御装置。
- 前記故障判定部により故障したと判定された操作部に対応する呼びを登録するための特殊操作を案内する情報を当該故障したと判定された操作部と同じ乗場又は同じかごに設けられている報知部から報知させる報知制御部を備えた請求項1から5のいずれか1項に記載のエレベーターの制御装置。
- エレベーターの巻上機のモータ電流を検出する電流検出部と、
エレベーターのかごの積載重量を検出する秤値検出部と、
前記秤値検出部により検出された値が満員判定閾値よりも大きい場合にかごが満員であると判定する満員判定部と、
前記電流検出部により過電流が検出され且つかごが上方向の呼びに応答する場合に、当該過電流が検出された時に前記秤値検出部により検出されていた値を満員判定閾値として設定する閾値設定部と、
を備えた請求項1から6のいずれか1項に記載のエレベーターの制御装置。 - エレベーターの巻上機のモータ電流を検出する電流検出部と、
エレベーターのかごの積載重量を検出する秤値検出部と、
前記秤値検出部により検出された値が満員判定閾値よりも大きい場合にかごが満員であると判定する満員判定部と、
前記電流検出部により過電流が検出され且つかごが上方向の呼びに応答する場合に、当該過電流が検出された時に前記秤値検出部により検出されていた値を満員判定閾値として設定する閾値設定部と、
を備えたエレベーターの制御装置。
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KR1020197021432A KR102262406B1 (ko) | 2016-12-26 | 2016-12-26 | 엘리베이터의 제어 장치 |
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