WO2018123027A1 - Remote recovery system for elevator failure - Google Patents
Remote recovery system for elevator failure Download PDFInfo
- Publication number
- WO2018123027A1 WO2018123027A1 PCT/JP2016/089121 JP2016089121W WO2018123027A1 WO 2018123027 A1 WO2018123027 A1 WO 2018123027A1 JP 2016089121 W JP2016089121 W JP 2016089121W WO 2018123027 A1 WO2018123027 A1 WO 2018123027A1
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- WIPO (PCT)
- Prior art keywords
- recovery
- failure
- elevator
- remote
- diagnosis
- 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
- B66B5/00—Applications of checking, fault-correcting, or safety devices in elevators
- B66B5/0006—Monitoring devices or performance analysers
- B66B5/0018—Devices monitoring the operating condition of the elevator system
- B66B5/0025—Devices monitoring the operating condition of the elevator system for maintenance or repair
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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
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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
Definitions
- the present invention relates to a system for recovering a failure in an elevator from a remote location.
- Patent Document 1 when an abnormality is detected in a drive system device that raises and lowers an elevator car, the rotating electrical machine (winding machine) of the drive system device and the rotor phase of the rotating electrical machine are There is a case where a magnetic pole correction operation for correcting magnetic pole deviation from the encoder to be detected is performed.
- the cause of the abnormality of the drive system device is not limited to the phase shift between the rotating electrical machine and the encoder, but may be a plurality of causes such as disconnection of the encoder or the rotating electrical machine.
- an object of the present invention is to provide a remote recovery system for an elevator failure that can determine in advance whether or not execution of magnetic pole correction is appropriate when an abnormality of a drive system device is detected.
- a remote recovery system for an elevator failure includes a rotating electrical machine capable of moving up and down an elevator car, an encoder for detecting a rotor phase of the rotating electrical machine, and a current sensor for detecting a current of wiring connected to the rotating electrical machine.
- a drive system device a brake capable of braking the car, an elevator control device that controls the drive system device based on the rotor phase detected by the encoder and the current value detected by the current sensor, and the elevator control device.
- a remote recovery device for causing the control device to perform a failure recovery operation.
- the elevator control device transmits a failure signal to the remote recovery device when an abnormality of the drive system device is detected based on the rotor phase and the current value.
- the remote recovery device lifts the emergency operation (scale operation) that raises and lowers the car by intermittent braking of the brake while the supply of powering power to the rotating electrical machine is stopped when a failure signal of the drive system device is received. Let the control device execute it. Furthermore, the remote recovery device determines whether or not to execute the magnetic pole correction operation for the rotating electrical machine that is executed as the recovery operation based on the rotor phase and the current value during the emergency operation.
- scale operation scale operation
- remote recovery may cause the elevator control device to perform a magnetic pole correction operation.
- the remote recovery device when at least one of the waveform of the rotor phase during emergency operation and the waveform of the current value during emergency operation is non-periodic, the remote recovery device provides a magnetic pole to the elevator control device. Execution of the correction operation may be prohibited.
- the present invention it is possible to determine in advance whether or not the execution of the magnetic pole correction is appropriate when an abnormality of the drive system device is detected.
- the remote recovery system 100 communicates with the elevator control device 200 that performs drive control of the elevator 20 disposed in the hoistway 11 of the building 10, and the elevator control device 200, and the elevator 20 fails.
- a remote recovery device 300 for performing the recovery operation There may be one elevator 20 or a plurality of elevators 20 that cause the remote recovery device 300 to perform the recovery operation.
- each elevator 20 may be installed in the same building 10 or may be installed in different buildings 10.
- the elevator control device 200 includes a control panel 210 that performs drive control of the elevator 20 and a communication device 250.
- the control panel 210 is a computer including a CPU and a memory inside.
- the remote recovery device 300 includes a remote monitoring center 310 including a communication device 320 and a monitoring panel 330, an information processing device 360, a maintenance database 370, and a recovery diagnosis database 380.
- the remote monitoring center 310, the information processing apparatus 360, the maintenance database 370, and the recovery diagnosis database 380 may be installed in the same place, or may be installed in different places and connected to each other via an Internet line or the like. Good.
- the communication device 250 is connected to the control panel 210 and transmits an output from the control panel 210 to the communication network 30. Further, the communication device 250 receives a command for the control panel 210 selected by the information processing device 360 with reference to the recovery diagnosis database 380 via the communication device 320 and the communication network 30 and outputs the command to the control panel 210.
- the communication device 320 receives a signal from the control panel 210 via the communication device 250 and the communication network 30 and outputs the signal to the information processing device 360. In addition, the communication device 320 transmits a command for the control panel 210 selected by the information processing device 360 to the communication network 30.
- the communication devices 250 and 320 may be devices that perform wireless communication or devices that perform wired communication.
- the communication network 30 may be an Internet communication network or a telephone line network.
- the remote monitoring center 310 is provided with a monitoring panel 330 that exchanges data with the information processing device 360 and monitors the operation status and failure status of the elevator 20.
- the monitoring panel 330 is provided with a display 331 for displaying an operation status of the elevator 20, a failure status, a notification from the information processing device 360, and the like, and a switch 332 for operating the display of the display 331.
- the monitoring panel 330 is provided with a telephone 333 that communicates with the service center 340 via the communication network 35.
- the maintenance database 370 stores history data such as specifications, inspections, maintenance, and repairs of the elevator 20.
- the restoration diagnosis database 380 stores a plurality of failure factors corresponding to the failure code output from the control panel 210 of the elevator 20, the number of cases, and data such as a restoration rate.
- the information processing apparatus 360 is a computer that includes a CPU and a memory therein.
- a failure signal output from the control panel 210 when a failure occurs in the elevator 20 is input to the information processing device 360 via the communication devices 250 and 320 and the communication network 30.
- the information processing device 360 refers to the data of the recovery diagnosis database 380 and selects a recovery instruction and a recovery diagnosis instruction corresponding to the failure code included in the failure signal.
- the selected restoration command and restoration diagnosis command are input to the control panel 210 via the communication devices 250 and 320 and the communication network 30, and cause the elevator 20 to execute a restoration operation and a restoration diagnosis operation.
- the maintenance database 370 includes elevator specification data 371, inspection history data 372, maintenance work history data 373, remote inspection history data 374, modulation history data 375, repair work history data 376, failure history data 377.
- failure factor-specific data 378 and operation history data 379 are stored. The data structure of the operation history data 379 will be described later.
- elevator specification data 371, inspection history data 372, maintenance work history data 373, remote inspection history data 374, modulation history data 375, repair work history data 376, failure history data 377, by failure factor The data structure of the data 378 will be described.
- the elevator specification data 371 has a data structure for storing the management number, model, date of manufacture, manufacturing number, name of the installed building, and usage data of the installed building of the elevator 20.
- the use of the installed building is, for example, an office, a general residence, a restaurant, a school, and the like.
- the inspection history data 372 has a data structure for storing the control number of the elevator 20, the date and time of inspection conducted by the engineer 350 on the site, inspection items, and inspection result data.
- the inspection includes, for example, inspection of the open / closed state of the doors 13 and 26 of the elevator 20 shown in FIG. 23 inspection, traveling speed inspection, and the like.
- whether or not an abnormality has been found as a result of the inspection whether an abnormality has not been found but maintenance work such as cleaning is necessary, or parts need to be replaced soon are input as the inspection result.
- reference numeral 25 denotes a weight.
- the maintenance work history data 373 has a database structure for storing the control number of the elevator 20, the maintenance work date and time of the elevator 20 performed by the engineer 350 in the field, maintenance work items, and maintenance work results.
- the maintenance work items include, for example, inspection of the operation state of the elevator 20, cleaning of the door rail of the elevator 20, refueling to the driving device 24 shown in FIG. 1, adjustment of the brake of the elevator 20, and the like. The results of maintenance, cleaning, refueling, adjustment, etc. are entered in the maintenance work results.
- the remote inspection history data 374 has a data structure for storing the control number of the elevator 20, the remote inspection date and time, the remote inspection item, and the remote inspection result.
- the remote inspection of the elevator 20 is performed by the control panel 210 of the elevator 20 according to a preset schedule such as once a month, for example.
- the control panel 210 of the elevator 20 moves the cage 22 of the elevator 20 shown in FIG. 1 to a predetermined floor. During this movement, various sensors attached to the elevator 20 are checked for abnormalities in driving performance (acceleration, presence or absence of abnormal noise), door opening / closing, brakes, emergency batteries, external communication devices, and the like.
- the inspection result is stored in the remote inspection history data 374 from the information processing device 360 via the communication devices 250 and 320 and the communication network 30.
- the remote inspection may be performed according to an instruction from the remote monitoring center 310.
- the modulation history data 375 has a data structure for storing the management number of the elevator 20, the modulation occurrence date and time, the modulation item, and the modulation correspondence result.
- the modulation of the elevator 20 refers to a case where the result of the inspection, inspection, maintenance work or remote inspection by the engineer 350 does not reach the abnormal value but changes from the normal value of the elevator 20. . For example, as a result of checking the traveling speed, the value is within the allowable value, but when the previous check or when the deviation of the elevator 20 from the value of the previous check result is large, the modulation item Recorded as “traveling speed”.
- the repair work history data 376 has a data structure for storing the control number of the elevator 20, the repair work date, the repair work item, and the repair work result.
- the repair work is a restoration work by replacement of parts such as replacement of the wire 23, replacement of the hanger roller, replacement of the brake pad, replacement of the control board, and replacement of the relay. Therefore, the name of the replacement part such as “wire replacement”, “hanger roller replacement”, “brake pad replacement”, etc. is entered in the repair work item, and “repair work completed”, “re-repair” are entered in the repair work result column. Items such as “Necessary” are entered.
- the failure history data 377 has a data structure for storing a management number of the elevator 20, a failure occurrence date and time, a failure code, a recovery method, and a recovery determination result.
- the failure code is a code output from the control panel 210 when a failure occurs in the elevator 20 or a combination of numbers and English letters.
- the types of failure codes are, for example, about 1000 types.
- the restoration method item is input as “engineer dispatch”.
- the item of the recovery method for example, when the remote recovery system 100 recovers, “Remote recovery” is input.
- “Recovery” is input.
- “failure” is input.
- the failure factor-specific data 378 includes the number of failure factors corresponding to the failure code as a result of inspection and inspection by the engineer 350 when a certain failure code is output from the control panel 210, and remote Stored is the total number of failure factors corresponding to the failure code when the recovery system 100 recovers. For example, when the failure code is 0001 indicating a failure related to the doors 13 and 26, the engineer 350 inspected the site, and as a result, the cause of the output of the failure code “0001” is the clogging of the door sill (failure factor 1). Or a contact failure of the switch of the door opening / closing device (failure factor 2), or other failure factor 3.
- the failure factor-specific data includes 100 cases of a door clogging factor (failure factor 1) when a failure code “0001” is output, and a contact failure of the door opening / closing device switch (failure factor 2). ) In the data structure such that 50 cases and other failure factor 3 cases are 10 cases, and the data is arranged in descending order of the number of cases. In the case of recovery by the remote recovery system 100, when the elevator 20 is successfully recovered by the recovery command, the number of failure factors corresponding to the failure code that is the basis of the recovery command is added to the total number of failure factors.
- the restoration diagnosis database 380 includes a restoration diagnosis instruction set that is a set of restoration instructions and restoration diagnosis instructions in descending order of the number of failure causes in the failure cause-specific data 378, and elevators by executing the restoration instructions. Stored is a recovery rate (%), which is the rate at which 20 failures have been recovered.
- the restoration diagnosis database 380 is a database in which the restoration diagnosis command set and the restoration rate are linked to the failure factor-specific data 378 described above.
- the data configuration of the recovery diagnosis database 380 when the failure code is “0001” indicating a failure related to the doors 13 and 26 will be described. If the door sill is clogged (Failure factor 1), the restoration diagnosis data will be “Failure factor 1”, “Door circuit reset + door high torque open / close” as the restoration command, and “Door open / close diagnostic” as the restoration diagnostic command.
- the data structure is such that a recovery diagnosis command set A, which is a set of two commands, and a recovery rate x% by a recovery operation by this recovery command are linked.
- the restoration diagnosis data is “door circuit reset + door opening / retry retry” as the restoration command in the number of failure cause 2 data, restoration diagnosis.
- the data structure is such that a recovery diagnosis command set B, which is a set of two commands of “door opening / closing diagnosis”, and a recovery rate y% of the recovery operation by this recovery command are linked as commands.
- the recovery diagnosis data has a data configuration in which the recovery diagnosis command set C and the recovery rate z% are linked to the number data of the failure factor 3.
- the recovery diagnosis database 380 includes the failure code, the failure factor corresponding to the failure code, the number of the failure factors, the recovery diagnosis command set that is a set of the recovery command and the recovery diagnosis, and the recovery rate. It is stored in the database in association.
- the recovery rate y% is a larger value than the recovery rates x% and z%
- the recovery diagnosis command set B has a higher recovery rate than the recovery diagnosis command set A and the recovery diagnosis command set C. ing.
- the operation of the remote recovery system 100 when a failure signal is transmitted from the elevator 20 will be described with reference to FIGS. 2, 5, and 6.
- the remote recovery operation when the failure code signal “0001” regarding the doors 13 and 26 is first transmitted will be described.
- a remote recovery operation when a failure code “0002” related to a control circuit incorporated in the control panel 210 is transmitted will be described.
- the remote recovery operation when a failure code “0003” related to the brake in the drive unit 24 is transmitted will be described.
- the remote recovery system 100 can also cope with a case where a failure code related to a part other than the above is transmitted.
- the control panel 210 of the elevator 20 determines whether or not a failure has occurred in the elevator 20.
- a failure relating to the doors 13 and 26 of the elevator 20 for example, a failure such as a door opening / closing failure
- the control panel 210 displays a failure code “0001” indicating the failure occurrence date and time and the failure is a failure relating to the door. Output to 250. If no failure occurs in the elevator 20, the control panel 210 returns to the beginning of step S ⁇ b> 101 and continues monitoring the elevator 20.
- the communication device 250 When the failure code “0001” is input from the control panel 210, the communication device 250, as shown in step S102 of FIGS. 2 and 5, includes the failure code “0001”, the management number of the elevator 20, and the failure occurrence date and time.
- a signal is transmitted to the communication network 30. 2 and 5, the communication device 320 of the remote monitoring center 310 receives the failure signal transmitted from the communication device 250 via the communication network 30.
- the communication device 320 When receiving the failure signal, the communication device 320 outputs the failure code “0001” included in the failure signal, the management number of the elevator 20, and the failure occurrence date and time to the information processing device 360.
- the information processing apparatus 360 stores the input failure code “0001”, the management number of the elevator 20, and the failure occurrence date / time in the failure history data 377 of the maintenance database 370.
- the information processing apparatus 360 determines whether or not the failed elevator 20 can be remotely recovered, as shown in step S104 of FIG.
- the information processing device 360 acquires the model, manufacturing date, and manufacturing number of the elevator 20 from the elevator specification data 371 using the management number of the elevator 20. Based on the acquired specification data, the information processing device 360 confirms whether the elevator 20 has a specification that allows a recovery operation and a recovery diagnosis operation based on a recovery command and a recovery diagnosis command from the remote recovery device 300.
- the information processing device 360 outputs a signal notifying the remote monitoring center 310 that remote recovery is impossible, as shown in step S124 in FIGS. To do.
- the information processing apparatus 360 refers to inspection history data 372, maintenance work history data 373, remote inspection history data 374, modulation history data 375, repair work history data 376, and failure history data 377.
- the following (a) to (f) are confirmed.
- C) There was an abnormality diagnosis result in the elevator 20 by remote inspection.
- D Recently, the elevator 20 has been modulated.
- E The elevator 20 has recently been repaired.
- the elevator 20 has recently transmitted a failure signal with the same failure code “0001”.
- the information processing apparatus 360 should dispatch the engineer 350 to the building 10 rather than the recovery by the remote recovery system 100. And NO is determined in step S104 of FIG. 2 and 5, the information processing apparatus 360 outputs a notification that remote recovery is not possible to the remote monitoring center 310.
- the information processing apparatus 360 confirms whether the building 10 is a building with many false signal transmissions from the elevator specification data 371 and the failure history data 377 using the management number of the elevator 20. In such a case, the information processing apparatus 360 determines that it is better to dispatch the engineer 350 to the building 10 than the recovery by the remote recovery system 100 because there is a high possibility of erroneous transmission of a failure signal. 5 is judged NO. Then, the information processing apparatus 360 outputs a remote recovery impossible notification to the remote monitoring center 310 as shown in step S124 of FIGS.
- the notification that remote recovery is not possible which is output from the information processing device 360 to the remote monitoring center 310, is displayed on the display 331 of the remote monitoring center 310 as shown in FIG.
- the supervisor 334 causes the elevator 20 to stop operating and announce as shown in step S125 of FIGS. 2 and 6.
- the supervisor 334 instructs the service center 340 in the vicinity of the building 10 to dispatch the engineer 350 to the building 10 by the telephone 333 as shown in step S126 of FIGS.
- the information processing apparatus 360 displays the input failure code “0001”, the management number of the elevator 20, and the failure occurrence date and time in the maintenance database in step S103.
- the failure history data 377 of 370 is stored. Then, the information processing apparatus 360 ends the remote recovery operation without updating other data in the maintenance database 370 and updating the recovery diagnosis database 380.
- step S104 shown in FIG. 5 the information processing apparatus 360, as shown in FIG. 2, the inspection history data 372, the maintenance work history data 373, the remote inspection history data 374, the modulation history data 375, and the repair work history data 376. Then, the following (g) to (n) are confirmed with reference to the failure history data 377.
- G It is a specification that allows the elevator 20 to perform a recovery operation and a recovery diagnosis operation by a recovery command and a recovery diagnosis command from the remote recovery device 300.
- the elevator 20 has not been instructed to re-adjust in a recent inspection.
- I The elevator 20 has no maintenance plan recently or on the day, and the possibility of misadjustment is not predicted.
- the information processing apparatus 360 determines YES in step S104 shown in FIG. 5, and starts remote recovery in the remote monitoring center 310 in step S105. Notice. This signal is displayed on the display 331 of the remote monitoring center 310. As a result, the supervisor 334 of the remote monitoring center 310 is notified that the remote recovery of the elevator 20 is started.
- the information processing apparatus 360 When the information processing apparatus 360 notifies the remote monitoring center 310 of the start of remote recovery in step S105, the information processing apparatus 360 proceeds to step S106 shown in FIG. 5 and selects a recovery instruction and a recovery diagnosis instruction corresponding to the failure code “0001”.
- the recovery diagnosis database 380 is a database in which the recovery factor instruction data and the recovery rate are linked to the failure factor-specific data 378.
- the data configuration of the recovery diagnosis database 380 when the failure code is “0001” indicating a failure relating to the doors 13 and 26 will be briefly described again.
- the restoration diagnosis data is “door circuit reset + door high-torque opening / closing” as the restoration command, and “door opening / closing” as the restoration diagnosis command.
- This is a data structure in which a recovery diagnosis command set A, which is a set of two commands “diagnosis”, and a recovery rate x% by a recovery operation by this recovery command are linked.
- the restoration diagnosis data is “door circuit reset + door opening / retry retry” as the restoration command in the number of failure cause 2 data, restoration diagnosis.
- the data structure is such that a recovery diagnosis command set B, which is a set of two commands of “door opening / closing diagnosis”, and a recovery rate y% of the recovery operation by this recovery command are linked as commands.
- the restoration diagnosis data has a data configuration in which the restoration diagnosis command set C and the restoration rate z% are linked to the number of cases of failure factor 3.
- the recovery rate y% is larger than the recovery rates x% and z%, and the recovery diagnosis command set B has a recovery rate higher than that of the recovery diagnosis command set A and the recovery diagnosis command set C. It is high.
- the information processing apparatus 360 may select, as a recovery command, a command corresponding to the failure factor having the largest number of cases among the plurality of failure factors corresponding to the failure code “0001”. Further, the information processing apparatus 360 may select a command having the highest recovery rate among a plurality of commands corresponding to the failure code “0001” as a recovery command. Then, the information processing device 360 selects a restoration diagnosis command set that is set together with the restoration command selected by the restoration diagnosis command corresponding to the selected restoration command.
- the information processing apparatus 360 selects a command corresponding to a failure factor having the largest number of cases among a plurality of failure factors corresponding to the failure code “0001” as a recovery command.
- the information processing apparatus 360 refers to the recovery diagnosis database 380 and confirms the failure factor having the largest number of cases when the failure code is “0001” as the recovery instruction.
- the information processing apparatus 360 performs a restoration operation for executing a restoration operation corresponding to the garbage clogging of the door sill (fault factor 1) which is the most frequent failure factor, “door circuit reset + door high torque opening / closing”,
- a restoration diagnosis command set A including two “door opening / closing diagnosis” which is a restoration diagnosis command for executing a restoration diagnosis operation corresponding to the result of the restoration operation is selected.
- the information processing apparatus 360 selects a command having the highest recovery rate among a plurality of commands corresponding to the failure code “0001” as a recovery command.
- the information processing apparatus 360 refers to the recovery diagnosis database 380 and confirms the recovery rate with the highest recovery rate corresponding to the failure code “0001” as the recovery command.
- the information processing apparatus 360 performs a restoration command for executing a restoration operation corresponding to the factor (failure factor 2) caused by the contact failure of the switch having the highest restoration rate y%, “door circuit reset + door opening / closing retry”,
- a restoration diagnosis command set B including two “door opening / closing diagnosis” which is a restoration diagnosis command for executing a restoration diagnosis operation corresponding to the result of the restoration operation is selected.
- the selection of whether to be based on the most frequent failure factor corresponding to the failure code “0001” or based on the recovery rate of the recovery diagnosis command set corresponding to the failure code “0001” is as follows: You may do as follows. For example, of the ratio of the maximum number of cases to the next number of cases (number of cases ratio) and the ratio of the maximum recovery rate and the next recovery rate (recovery rate ratio), You may select the one where the maximum value protrudes. Further, for example, if the previous remote recovery has failed, a different selection method may be used. Further, the selection of the restoration diagnosis command set may be determined by, for example, the model and specification of the elevator 20.
- the information processing apparatus 360 selects the restoration diagnosis instruction set A based on the failure factor 1 having the largest number corresponding to the failure code “0001”.
- the information processing apparatus 360 transmits the selected restoration diagnosis command set A from the communication device 320 as shown in step S107 of FIGS. 2 and 5, when receiving the recovery diagnosis command set A from the communication device 320, the communication device 250 outputs the recovery command and the recovery diagnosis command to the control panel 210.
- the control panel 210 determines that the elevator 20 is stopped, the weight sensor of the cage 22, the camera in the cage 22, the output of the person sensor in the cage 22, etc. Make sure there are no passengers inside.
- the control panel 210 confirms that the elevator 20 is stopped and that there are no passengers in the basket 22, the control panel 210 "starts remote recovery from now on” from the speaker of the communication device installed in the basket 22. The elevator door will open and close. "
- the control panel 210 proceeds to step S110 in FIG. 5 and executes a recovery operation according to the recovery command. Since the received restoration command is “door circuit reset + door high torque opening / closing” which is a restoration command for executing a restoration operation corresponding to the garbage clogging of the door sill (fault factor 1), the control panel 210 First, the door circuit of the control panel 210 is reset. This operation resets the state in which the door circuit cannot open or close the door 13 or the door 26 and detects the open (or closed) state or the half-open (or half-closed) state, and opens or closes the door 13 or the door 26. This is a possible operation.
- the control panel 210 increases the torque of the drive motor of the door 13 and the door 26 by 20 to 30% than usual, and opens and closes the door 13 and the door 26 with a force larger than usual.
- This operation is an operation in which the garbage stuck in the door sill is moved from the sill and the opening / closing operation of the doors 13 and 26 is restored to the normal state.
- the control panel 210 restores the garbage stuck in the thresholds of the doors 13 and 26 to check whether the doors 13 and 26 have been opened and closed. “Door open / close diagnosis” which is a diagnosis command is executed.
- the control panel 210 opens and closes the door 13 and the door 26 with a normal torque, and can the opening and closing operation be performed within a predetermined opening / closing time, or whether the current of the drive motor for the door 13 and the door 26 is larger than usual. Confirm. Next, the control panel 210 opens and closes the door 13 and the door 26 by reducing the torque of the drive motor by about 20% from the normal state, and checks whether there is any abnormality in the opening and closing time.
- step S113 the control panel 210 outputs a determination result signal that the elevator 20 has been restored.
- This signal is transmitted from the communication device 250 to the communication network 30.
- the transmitted determination result signal is received by the communication device 320 as shown in step S ⁇ b> 114 of FIG. 6, and the determination result is input to the information processing device 360.
- the determination result is notified from the information processing apparatus 360 to the remote monitoring center 310 as shown in step S115 of FIG. 6, and the result is displayed on the display 331 of the remote monitoring center 310.
- the monitor 334 of the remote monitoring center 310 confirms this display, as shown in step S116 of FIG. 6, the operation of the elevator 20 is resumed and an announcement operation is performed. Further, the information processing apparatus 360 updates the maintenance database 370 and the recovery diagnosis database 380 as shown in steps S117 and S118 of FIG.
- step S119 the control panel 210 outputs a determination result signal indicating that the restoration of the elevator 20 has failed.
- This signal is transmitted from the communication device 250 to the communication network 30.
- the transmitted determination result signal is received by the communication device 320 as shown in step S120 of FIG. 6, and the determination result is input to the information processing device 360. Further, the determination result is notified from the information processing apparatus 360 to the remote monitoring center 310 as shown in step S121 of FIG. 6, and the result is displayed on the display 331 of the remote monitoring center 310.
- the supervisor 334 After confirming this display, the supervisor 334 causes the elevator 20 to stop operating and announce as shown in step S122 of FIG. In addition, the supervisor 334 instructs the service center 340 near the building 10 to dispatch the engineer 350 to the building 10 by the telephone 333 as shown in step S123 of FIGS. Further, the information processing apparatus 360 updates the maintenance database 370 and the recovery diagnosis database 380 as shown in steps S117 and S118 of FIG.
- the information processing apparatus 360 updates the maintenance database 370 as follows, when the determination signal that the elevator 20 has been restored as shown in step S113 of FIG. 5 is input.
- the information processing apparatus 360 displays “remote recovery” in the recovery method item of the failure history data 377, and the recovery determination result. Store “Recovery” in the item.
- the communication device 320 receives the failure signal
- the information processing device 360 maintains the failure code “0001” input from the communication device 320, the management number of the elevator 20, and the failure occurrence date and time.
- the failure history data 377 of the database 370 is stored. Accordingly, all items of the failure history data 377 are updated by storing the current recovery method and the recovery determination result.
- the information processing apparatus 360 refers to the recovery diagnosis database 380 and clogs the door sill that is the most frequent failure factor (failure factor 1) when the failure code is “0001” as the recovery command. 2) of “door circuit reset + door open / retry retry” that is a recovery command for executing a recovery operation corresponding to (2)) and “door open / close diagnosis” that is a recovery diagnostic command for executing a recovery diagnostic operation corresponding to the result of this recovery operation.
- a recovery diagnosis command set A consisting of two is selected and a recovery operation and a recovery diagnosis operation are executed.
- the number of failure codes “0001” and failure factor 1 (garbage clogs on the door sill) in the restoration diagnosis database 380 is increased by one, and the restoration rate corresponding to the number of successful restorations.
- the information processing device 360 increases the number of failure factors 1 of the failure code “0001” in the failure factor-specific data 378 by one.
- the information processing device 360 updates the maintenance database 370 and the restoration diagnosis database 380 as follows when the determination signal indicating that the restoration of the elevator 20 has failed as shown in step S119 of FIG. 5 is input.
- the information processing apparatus 360 displays “remote recovery” in the recovery method item of the failure history data 377, and a recovery determination. Store “failure” in the result item. Further, the number of cases of failure code “0001” and failure factor 1 (garbage on the door sill) in the restoration diagnosis database 380 is left as it is, and the restoration rate is lowered by the amount of restoration failure. Note that if the recovery fails, the number of failure factors 1 of the failure code “0001” in the failure factor-specific data 378 is not changed.
- the information processing apparatus 360 selects the restoration diagnosis instruction set A based on the most frequent failure factor corresponding to the failure code “0001”.
- the information processing device 360 selects the recovery diagnosis command set B based on the recovery rate of the recovery diagnosis command set corresponding to the failure code “0001”
- the normal operation is performed instead of the recovery operation of “door high torque opening / closing”.
- a difference is that a recovery operation of “door opening / closing retry” in which the opening / closing operation of the doors 13 and 26 is performed again by torque is performed.
- Other operations are the same as when the restoration diagnosis command set A is selected.
- the number of door clogging (failure factor 1), which was the most frequent failure factor in the case of the failure code “0001”, increases. For this reason, when the remote recovery system 100 selects a recovery diagnosis command set based on the most frequent failure factor corresponding to the failure code “0001”, the failure code “0001” is input at the time of the next remote recovery. At this time, the information processing apparatus 360 selects the restoration diagnosis command set A again. When the recovery rate of the recovery diagnosis command set A is higher than the recovery rate of the recovery diagnosis command set B, the information processing apparatus 360 has a recovery rate of a plurality of commands corresponding to the failure code “0001”. Even when the highest command is selected as the return command, the restoration diagnosis command set A is selected.
- the recovery rate of the recovery diagnosis command set A becomes relatively high. That is, the recovery rate ratio of the recovery diagnosis command set B to the recovery diagnosis command set A is increased.
- the restoration rate ratio becomes larger than the number ratio calculated as the ratio of the number of failure factors 1 to the number of failures 2
- the information processing apparatus 360 recovers among the plurality of commands corresponding to the failure code “0001”. The command with the highest rate is selected as the return command.
- the information processing apparatus 360 selects the restoration diagnosis command set B having the highest restoration rate when the failure code “0001” is input at the time of the next remote restoration. Further, when the information processing device 360 does not select the restoration diagnosis command set A that has failed to be restored in the previous remote restoration, the failure factor 1 is linked to the failure factor 2 having the largest number corresponding to the failure code “0001”. Restored diagnosis command set B is selected.
- the information processing apparatus 360 selects the restoration diagnosis command set B having the highest restoration rate among the plurality of instructions corresponding to the failure code “0001” and succeeds in the restoration of the elevator 20, the restoration diagnosis instruction set The recovery rate of B increases. Therefore, in the next remote recovery, the information processing apparatus 360 selects the recovery diagnosis command set B as in the previous time. On the other hand, if the restoration diagnosis command set B fails to restore the elevator 20, the restoration rate of the restoration diagnosis command set B is lowered. When the recovery rate of the recovery diagnosis command set B is lower than the recovery rate of the recovery diagnosis command set A, the information processing device 360 selects the recovery diagnosis command set A. If the information processing device 360 does not select the recovery diagnosis command set B that has failed to recover in the previous remote recovery, the recovery diagnosis with the high recovery rate corresponding to the failure code “0001” next to the recovery diagnosis command set B Select command set A.
- the remote recovery system 100 increases the number of failure factors and the recovery rate of the selected recovery diagnosis command set when the remote recovery is successful. In addition, if the remote recovery system 100 fails, the remote recovery system 100 reduces the recovery rate of the selected recovery diagnosis command set without changing the number of failure factors. For this reason, if the remote recovery is successful, there is a high possibility that the recovery diagnosis command set selected in the remote recovery is selected in the next remote recovery. Further, if the remote recovery fails, the possibility that the recovery diagnosis command set selected by the remote recovery is selected at the next remote recovery is reduced. For this reason, as the number of remote restorations increases, the information processing apparatus 360 can select a restoration diagnosis command set having a high possibility of restoration corresponding to the failure code from the restoration diagnosis database 380, and the restoration of the elevator 20 is ensured. Can be improved.
- the engineer 350 inspected the site to find out that the cause of the output of the failure code “0002” is defective in the relay attached to the control panel 210. This is a case (failure factor 4), a case where there is a defect in the relay drive circuit that drives the relay (failure factor 5), or another failure factor 6.
- the failure factor-specific data 378 indicates that when the failure code is “0002”, there are 100 cases where the failure is caused by a failure (failure factor 4), 50 cases where the failure of the relay drive circuit is caused (failure factor 5), etc.
- the data structure is such that there are 10 cases of failure factor 6 and the data is arranged in descending order. As described above, in the case of recovery by the remote recovery system 100, when the elevator 20 is successfully recovered by the recovery command, the number of failure factors corresponding to the failure code that is the basis of the recovery command is the overall failure factor. It is added to the number of cases.
- the restoration diagnosis database 380 is a database in which a restoration diagnosis instruction set and a restoration rate are linked to the failure factor-specific data 378.
- the data configuration of the recovery diagnosis database 380 when the failure code is “0002” indicating a failure related to the control circuit will be described.
- the restoration diagnosis data is “control circuit reset + low speed up / down operation” as the restoration command in the number data of the failure factor 4 and “each floor operation, high speed” as the restoration diagnosis command.
- the data structure is obtained by linking a recovery diagnosis command set E, which is a set of two commands, “operation on each floor and high-speed operation diagnosis”, and a recovery rate b% by a recovery operation based on the recovery diagnosis command.
- the recovery diagnosis data has a data structure in which the recovery diagnosis command set F and the recovery rate c% are linked to the number data of the failure factor 6.
- the recovery diagnosis database 380 includes the failure code, the failure factor corresponding to the failure code, the number of the failure factors, the recovery diagnosis command set that is a set of the recovery command and the recovery diagnosis, and the recovery rate. It is stored in the database in association. Note that the recovery rate is the highest in b% of the recovery diagnosis command set E.
- the information processing device 360 selects the restoration diagnosis instruction set D based on the failure factor having the largest number of cases corresponding to the failure code “0002”. 360 transmits a restoration diagnosis command set D to the control panel 210.
- the control panel 210 After executing the control circuit reset operation, the control panel 210 performs low-speed up and down operations that raise and lower the cage 22 of the elevator 20 at low speed. After that, the control panel 210 performs each floor operation that stops on each floor without opening and closing the doors 13 and 26, high speed operation that operates between a plurality of floors at high speed, operation that stops on each floor, and high speed operation Check for any abnormal driving.
- the control panel 210 When there is no abnormality in each floor operation and high-speed operation, the control panel 210 outputs a determination result of successful restoration of the elevator 20. In addition, when an abnormality is detected in each floor operation or high-speed operation, the control panel 210 outputs a determination result of failure in restoration of the elevator 20. This determination result is input from the control panel 210 to the information processing device 360 via the communication devices 250 and 320. As described above, the information processing apparatus 360 may select failure history data 377, failure factor-specific data 378, recovery diagnosis so that a recovery diagnosis command set having a higher recovery possibility can be selected based on the determination result. The database 380 is updated.
- the information processing apparatus 360 selects the recovery diagnosis command set E having the highest recovery rate corresponding to the failure code “0002”, the information processing apparatus 360 transmits the recovery diagnosis instruction set E to the control panel 210.
- the control panel 210 executes the operation between the lowermost floor and the uppermost floor for moving the basket 22 of the elevator 20 between the lowermost floor and the uppermost floor.
- the control panel 210 executes each floor operation and high-speed operation described above, performs restoration diagnosis of the elevator 20, and outputs a determination result of whether the restoration of the elevator 20 has succeeded or failed.
- the determination result is input from the control panel 210 to the information processing device 360 via the communication devices 250 and 320.
- the information processing device 360 updates the failure history data 377, the failure factor-specific data 378, and the recovery diagnosis database 380 so that a recovery diagnosis command set having a higher recovery possibility can be selected based on the determination result.
- the failure factor-specific data 378 includes 100 cases in which the brake circuit abnormality is the cause (failure factor 7), 50 cases in the case of failure factor 8, and other failure factors 9
- the data structure is such that there are 10 cases, and the data is arranged in descending order.
- the restoration diagnosis database 380 is a database in which a restoration diagnosis command set and a restoration rate are linked to failure factor-specific data 378.
- the data structure of the recovery diagnosis database 380 when the failure code is “0003” indicating a failure related to the brake will be described.
- the restoration diagnosis data includes two data, “control circuit reset” as a restoration command and “brake torque diagnosis” as a restoration diagnosis command.
- the data configuration is such that a recovery diagnosis command set G, which is a set of commands, and a recovery rate d% by a recovery operation based on the recovery diagnosis command are linked.
- the recovery diagnosis data includes the recovery diagnosis command set H and the recovery rate e%, the recovery diagnosis command set I and the recovery rate f% in the number data of the failure factor 8 and the failure factor 9, respectively.
- the recovery diagnosis database 380 includes the failure code, the failure factor corresponding to the failure code, the number of the failure factors, the recovery diagnosis command set that is a set of the recovery command and the recovery diagnosis, and the recovery rate. It is stored in the database in association. Note that the recovery rate is highest in e% of the recovery diagnosis command set H.
- the information processing device 360 selects the restoration diagnosis command set G based on the failure factor having the largest number of cases corresponding to the failure code “0003” in step S106 in FIG. In this case, the information processing device 360 transmits a restoration diagnosis command set G to the control panel 210.
- the control panel 210 executes a brake torque diagnosis operation in the field confirmation shown in step S109 of FIG.
- the brake torque diagnosis operation the hoisting machine in the driving device 24 is not rotated by a mechanical brake, and a driving force is applied to the hoisting machine to confirm that the hoisting machine does not rotate by the holding force of the brake. Is the action. If there is no abnormality in this operation, the control panel 210 makes an announcement of remote recovery assuming that the site of the elevator 20 can be confirmed in step S109 of FIG. Thereafter, the process proceeds to step S110 in FIG. 5, and the control panel 210 executes a control circuit reset operation.
- the control panel 210 executes a brake torque diagnosis operation.
- the control panel 210 outputs a determination result indicating that the elevator 20 has been successfully restored. Further, when the hoisting machine rotates, the control panel 210 outputs a determination result of failure in restoration of the elevator 20.
- This determination result is input from the control panel 210 to the information processing device 360 via the communication devices 250 and 320.
- the information processing device 360 updates the failure history data 377, the failure factor-specific data 378, and the recovery diagnosis database 380 so that a recovery diagnosis command set having a high recovery possibility can be selected based on the determination result.
- the information processing apparatus 360 selects the restoration diagnosis command set H having the highest restoration rate corresponding to the failure code “0003” and causes the control panel 210 to execute the restoration operation and the restoration diagnosis operation. You can also.
- control panel 210 determines that remote recovery cannot be started, and notifies the remote monitoring center 310 that remote recovery is not possible without executing the remote recovery operation.
- the remote recovery system 100 performs a recovery operation and recovery diagnosis on the elevator 20 according to a command from the remote recovery device 300 disposed at a location away from the elevator 20.
- the operation can be executed to restore the elevator 20. For this reason, when failure occurs in the elevator 20, the elevator 20 can be restored in a short time without dispatching the technician 350 to the site, and the operation service of the elevator 20 can be improved.
- the remote recovery system 100 can select a failure history data 377, failure factor-specific data 378, so that a recovery diagnosis command set having a high possibility of recovery can be selected in the next remote recovery based on the recovery determination result.
- the recovery diagnosis database 380 is updated. Therefore, as the number of remote restorations increases, the information processing apparatus 360 can select a more appropriate restoration diagnosis command set corresponding to the failure code from the restoration diagnosis database 380. Thereby, the restoration of the elevator 20 can be reliably performed, and the time required for the restoration can be shortened to improve the operation service of the elevator 20.
- FIG. 9 illustrates an enlarged view of the elevator 20 shown in FIG.
- the basket 22 is suspended from a wire 23, and a weight 25 (counterweight) is suspended from the other end of the wire 23.
- the wire 23 is stretched over a rotating electrical machine 400 (winding machine) that is a driving device 24, and the cage 22 (and the weight 25) can be moved up and down by the rotating electrical machine 400.
- the rotating electrical machine 400 is constituted by a three-phase AC synchronous motor, for example.
- the rotating electrical machine 400 is provided with a brake 401.
- the brake 401 includes, for example, a brake drum attached to a rotating shaft of the rotating electrical machine 400 and a brake shoe that can be pressed against / separated from the brake drum. Engagement (pressure contact) / release (separation) of the brake 401 can be controlled by the control panel 210 (elevator control device 200).
- the three-phase wirings 403u, 403v, and 403w are connected to the rotating electrical machine 400, and the inverter 402 is connected to the other end of the three-phase wirings 403u, 403v, and 403w.
- the inverter 402 converts a power source such as a commercial power source during powering of the rotating electrical machine 400 and supplies the converted electrical power to the rotating electrical machine 400 via the three-phase wirings 403u, 403v, and 403w.
- the inverter 402 converts the regenerative power supplied from the rotating electrical machine 400 through the three-phase wirings 403u, 403v, and 403w and supplies it to a power storage device (not shown) or the like when the rotating electrical machine 400 is regenerated.
- the inverter 402 is composed of, for example, a three-phase inverter.
- the inverter 402 includes two switching elements for one phase, and six switching elements are provided for three phases. On / off of these switching elements is controlled by the control panel 210 (elevator control device 200).
- Current sensors are provided in the three-phase wirings 403u, 403v, and 403w.
- the current sensor 404u is provided in the u-phase wiring 403u
- the current sensor 404v is provided in the v-phase wiring 403v. Since the sum of the three-phase currents is 0, the w-phase current Iw can be obtained from the values of the current sensor 404u and the current sensor 404v. Detection values Iu and Iv of current sensor 404u and current sensor 404v are transmitted to elevator control device 200 (control panel 210).
- the encoder 406 is provided on the rotor of the rotating electrical machine 400 and detects the rotor phase ⁇ . Further, the rotational speed of the rotating electrical machine 400 can be obtained by differentiating the rotor phase ⁇ .
- the rotor phase ⁇ by the encoder 406 is transmitted to the elevator control device 200 (control panel 210).
- the elevator control device 200 controls the drive system devices based on the rotor phase ⁇ received from the encoder 406 and the detection values Iu and Iv of the current sensor 404u and the current sensor 404v.
- a feedback loop control system for the rotating electrical machine 400 is constructed in the elevator control device 200.
- the elevator control device 200 generates a PWM control signal for controlling the switching element of the inverter 402 based on the rotor phase ⁇ , the current values Iu and Iv, and a predetermined command value (for example, a torque command).
- the rotary electric machine 400 is driven and controlled through the control of the inverter 402.
- the elevator control device 200 can perform a magnetic pole correction operation that eliminates the magnetic pole deviation.
- the magnetic pole deviation can be determined from the value of the compensation voltage. Further, the magnetic pole deviation can be eliminated by correcting the phase angle of the encoder 406 so that the d-axis current is zero.
- the d-axis current that is basically unnecessary for torque generation is controlled to zero.
- the rotating electrical machine 400 rotates, an induced voltage is generated, the d-axis voltage is affected by the q-axis current, and the q-axis voltage is affected by the d-axis current.
- a compensation voltage for the q-axis voltage is output. In other words, the compensation voltage is output so that the q-axis voltage does not interfere with the d-axis current.
- magnétique pole correction is executed. That is, the phase angle detected by the encoder 406 is corrected, the change in the d-axis current at that time is measured, and when this changes to 0, the rotor position of the rotating electrical machine 400 and the reference position of the encoder 406 are determined. It is determined that they match (are aligned).
- the magnetic pole correction can be executed by a command from the remote recovery device 300, and thus remote recovery is possible.
- the drive system equipment of the elevator 20 includes the rotating electrical machine 400, the inverter 402, the encoder 406, and the current sensors 404u and 404v.
- the magnetic pole correction when a failure signal related to the drive system device is transmitted, it is determined in advance whether or not the magnetic pole correction can be executed before the magnetic pole correction is executed. If the cause of the failure of the drive system device is different from the magnetic pole correction, the drive system device may not be restored even if the magnetic pole correction is performed, and the failure may be increased. As in this embodiment, by examining the appropriateness of the magnetic pole correction execution in advance, the recovery rate by the magnetic pole correction can be improved and the expansion of the failure can be suppressed.
- FIG. 10 shows an overview of the remote recovery system 100 according to the present embodiment. The difference from FIG. 2 is that an emergency operation execution command unit is added to the functional block of the information processing device 360 of the remote recovery device 300. The rest of the configuration is the same as in FIG.
- FIG. 11 illustrates a flowchart of the remote recovery operation according to the present embodiment.
- step S1002 is inserted between step S103 and step S104, and a reference symbol 4 for shifting from step S1002 to the step of FIG. 12 is provided.
- description of the same steps as those in FIG. 5 will be omitted as appropriate.
- step S101 the elevator control device 200 determines whether or not a failure has occurred in the elevator 20. For example, in the case of a failure in the drive system device, the presence / absence of the failure is determined based on the rotor phase ⁇ of the encoder 406 received by the elevator control device 200 and the currents Iu, Iv, Iw obtained from the current sensors 404u, 404v. For example, in the case of magnetic pole deviation, in the control system (feedback loop control system) of the rotating electrical machine 400, the value of the compensation voltage determined based on the rotor phase ⁇ and the currents Iu, Iv, and Iw exceeds a predetermined upper limit threshold value. At this time, a failure signal is transmitted from the elevator control device 200 to the remote recovery device 300.
- the information processing device 360 determines whether or not the failure code is a code “0011” indicating a drive system device failure (S1002). If the code is different from “0011”, the process proceeds to step S104.
- the information processing apparatus 360 transmits an emergency operation execution command by intermittent braking of the brake 401 to the elevator control apparatus 200 (control panel 210) ( S1004).
- the elevator controller 200 intermittently brakes the brake 401 in a state where the supply of powering power to the rotating electrical machine 400 is stopped, that is, the emergency operation for raising and lowering the cage 22 by alternately performing brake engagement and release. Execute.
- the moving direction (ascending / descending) of the cage 22 is determined by the weight difference between the weight 25 and the cage 22.
- the elevator control device 200 receives the detection values of the current sensors 404u and 404v and the encoder 406 during emergency operation and sequentially transmits them to the remote recovery device 300.
- these values are stored as operation history data of the maintenance database 370 via the remote monitoring center 310 and the information processing device 360.
- the elevator control device 200 determines whether or not the basket 22 has reached the nearest floor (S1006). For example, it is determined whether or not an on signal is output when the landing switch 408 provided in the car is close to a door zone plate (not shown) provided in the hoistway 11. If it has not arrived at the nearest floor, the process returns to step S1006.
- the elevator control device 200 brings the brake 401 into an engaged state. Further, the doors 13 (see FIG. 1) and 26 are opened, and a retreat warning operation is executed using a display device, an audio output device, etc. in the basket 22 (S1008). For example, a character display and a voice output for evacuating from the basket 22 to the floor 12 (see FIG. 1) are performed.
- the elevator control device 200 determines whether there is an occupant in the cage 22 by a monitoring camera (not shown) in the cage 22 (S1010).
- the elevator control device 200 determines the presence or absence of a passenger by image recognition.
- an image of the monitoring camera may be transmitted to the remote monitoring center 310 and the presence or absence of a passenger may be determined by the monitoring person.
- step S1010 If there is an occupant in the basket 22 in step S1010, the process returns to step S1008 to continue the evacuation warning operation.
- the elevator control device 200 ends the emergency operation (S1012) and waits for an instruction from the remote recovery device 300.
- the information processing device 360 When the information processing device 360 receives the emergency operation end signal from the elevator control device 200, the information processing device 360 acquires the operation history data during the emergency operation of the current sensors 404u and 404v and the encoder 406 from the maintenance database 370 (S1014).
- the current to be acquired may be any one phase current instead of all three phase currents.
- the current Iu is acquired from the current sensor 404u.
- the current Iu is used as a representative value of the current for convenience, but the currents Iv and Iw may be used instead.
- the rotating electrical machine 400 around which the wire 23 is stretched is rotated as the cage 22 and the weight 25 are moved up and down.
- the rotor is driven, and the encoder 406 detects a change in the rotor phase ⁇ .
- the current sensors 404u and 404v detect current (regenerative current) accordingly.
- FIG. 13 shows the detected value of the current Iu by the current sensor 404u
- the lower part of FIG. 13 shows the waveform of the detected value of the rotor position ⁇ by the encoder 406.
- the upper graph in FIG. 13 shows current Iu on the vertical axis and time on the horizontal axis
- the lower graph in FIG. 13 shows rotor position ⁇ on the vertical axis and time on the horizontal axis.
- the horizontal axis is synchronized for both graphs.
- Bk_OFF represents a period during which the brake 401 is released (a period during which the car 22 moves up and down)
- Bk_ON represents a period during which the brake 401 is engaged (a period during which the car 22 is stationary). That is, the brake 401 is engaged from the start point of the graph to time t1, the brake 401 is released from time t1 to time t2, and the brake 401 is engaged again after time t3.
- FIG. 13 shows an example in which the magnetic pole deviation occurs, but the encoder 406 and the current sensors 404u and 404v are normal, that is, no abnormality different from the magnetic pole deviation has occurred.
- the encoder 406 and the current sensors 404u and 404v are normal, that is, no abnormality different from the magnetic pole deviation has occurred.
- changes in the rotor phase ⁇ and the currents Iu, Iv, and Iw change at substantially the same frequency with a phase deviation.
- the information processing apparatus 360 determines whether or not to perform a magnetic pole correction operation that is executed as a recovery operation for the rotating electrical machine 400 based on the rotor phase ⁇ and the current values Iu, Iv, and Iw during emergency operation. Determine.
- the information processing apparatus 360 determines whether the waveforms of the currents Iu, Iv, and Iw are periodic (S1016). For example, as described above, a waveform whose value remains constant or does not change or whose cycle fluctuates is determined to be non-periodic. If it is determined as non-periodic, the process proceeds to step S1028.
- the information processing device 360 samples the extreme value of at least one of the current values Iu, Iv, and Iw, and the current frequency fIu_k. , FIv_k, fIw_k is obtained (S1018).
- the current frequency fIu_k is used as a representative value as appropriate.
- the information processing apparatus 360 determines whether or not the waveform of the rotor phase ⁇ detected by the encoder 406 is periodic (S1020). For example, similarly to the currents Iu, Iv, and Iw, a waveform in which the value remains constant and does not change or the period is irregular is determined to be non-periodic. If it is determined as non-periodic, the process proceeds to step S1028.
- the information processing device 360 obtains a difference between the current frequency fIu_k and the rotor phase frequency fE_k, and determines whether or not this difference is within a predetermined difference. For example, the difference between fIu_1 and fE_1, the difference between fIu_2 and fE_2,... ) / K). Furthermore, the information processing apparatus 360 determines whether or not the obtained value (difference value) is less than a predetermined threshold difference ⁇ f_th (S1024). If the difference value is greater than or equal to the threshold difference ⁇ f_th, the process proceeds to step S1028.
- step S1028 the information processing apparatus 360 prohibits execution of magnetic pole correction for the elevator control apparatus 200 and determines that remote recovery is impossible. Further, the process proceeds to step S125 of FIG.
- the information processing device 360 When the difference value ⁇ (fIu_k ⁇ fE_k) / k is less than the threshold difference ⁇ f_th in step S1024, the information processing device 360 outputs a magnetic pole correction operation execution command to the elevator control device 200 (S1026). Thereafter, a recovery diagnosis operation (S111) is executed. For example, the drive system device is operated in a predetermined maintenance operation mode. In the subsequent recovery determination (S112), it is determined whether or not a failure signal is transmitted during the recovery diagnosis operation. If the failure signal is not transmitted, switching to normal operation is executed in the determination result (recovery) transmission step (S113). If the failure signal is transmitted, the determination result (recovery failure) transmission (S119) step. The remote recovery device 300 transmits a signal indicating that the recovery has failed. Since the subsequent steps have already been described above, description thereof is omitted here.
- the remote recovery device it is possible to determine in advance whether or not the execution of the magnetic pole correction is appropriate when an abnormality of the drive system device is detected. By doing so, it is possible to suppress the execution of useless (high possibility of recovery failure) magnetic pole correction, and it is possible to suppress the expansion of failures due to the execution of magnetic pole correction.
- the determination as to whether or not the magnetic pole correction can be performed is performed in cooperation with the elevator control device 200 and the remote recovery device 300.
- the present invention is not limited to this configuration.
- an emergency operation execution command unit is provided as a functional unit of the elevator control device 200.
- the flow of FIG. 12 is executed.
- reference numeral 4 is replaced with abnormality detection of the drive system device and becomes a trigger for executing the flow of FIG.
- Each step in the flow of FIG. 12 is executed by the elevator control device 200, and the result (recovery success / failure) is transmitted to the remote recovery device 300.
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Abstract
Description
(a)エレベーター20が最近の検査で調整手直し指示があったものである。
(b)エレベーター20が最近、あるいは、当日に保守計画があり調整ミスの可能性が予測されるものである。
(c)遠隔点検でエレベーター20に異常の診断結果があった。
(d)最近、エレベーター20に変調の発生があった。
(e)エレベーター20が、最近、修理工事が実施されているものである。
(f)エレベーター20が、最近、同様の故障コード「0001」による故障信号を発信している。 Further, as shown in FIG. 2, the
(A) The
(B) The
(C) There was an abnormality diagnosis result in the
(D) Recently, the
(E) The
(F) The
(g)エレベーター20が遠隔復旧装置300からの復旧指令、復旧診断指令によって復旧動作、復旧診断動作が可能な仕様である。
(h)エレベーター20が最近の検査で調整手直し指示があったものではない。
(i)エレベーター20が、最近、あるいは、当日に保守計画がなく調整ミスの可能性が予測されるものではない。
(j)遠隔点検でエレベーター20に異常の診断結果がない。
(k)最近、エレベーター20に変調の発生がない。
(l)エレベーター20が、最近、修理工事が実施されているものではない。
(m)エレベーター20が、最近、同様の故障コード「0001」による故障信号を発信していない。
(n)ビル10が故障信号の誤発信の多い建物ではない。 On the other hand, in step S104 shown in FIG. 5, the
(G) It is a specification that allows the
(H) The
(I) The
(J) There is no abnormality diagnosis result in the
(K) Recently, there is no modulation in the
(L) The
(M) The
(N) The
図9~図13を用いて、駆動系機器に対する遠隔復旧対応が含まれる遠隔復旧システムについて説明する。図9には、図1で示したエレベーター20の拡大図が例示されている。 <Remote drive system recovery system>
A remote recovery system including a remote recovery response for a drive system device will be described with reference to FIGS. FIG. 9 illustrates an enlarged view of the
Claims (3)
- エレベーター故障の遠隔復旧システムであって、
前記エレベーターのカゴを昇降可能な回転電機、前記回転電機の回転子位相を検出するエンコーダ、及び、前記回転電機に接続された配線の電流を検出する電流センサを備える駆動系機器と、
前記カゴを制動可能なブレーキと、
前記エンコーダが検出した前記回転子位相と、前記電流センサが検出した電流値に基づいて、前記駆動系機器を制御するエレベーター制御装置と、
前記エレベーター制御装置と通信し、前記エレベーター制御装置に故障の復旧動作を行わせる遠隔復旧装置と、
を備え、
前記エレベーター制御装置は、前記回転子位相と前記電流値に基づいて前記駆動系機器の異常を検知した際に故障信号を前記遠隔復旧装置に送信し、
前記遠隔復旧装置は、
前記駆動系機器の故障信号を受信した際に、前記回転電機に対して力行電力の供給を停止した状態で前記ブレーキの間欠制動にて前記カゴを昇降させる非常運転を前記エレベーター制御装置に実行させ、
前記非常運転時の前記回転子位相及び前記電流値に基づいて、前記復旧動作として実行される前記回転電機に対する磁極補正運転の実行可否を判定する、
エレベーター故障の遠隔復旧システム。 A remote recovery system for elevator failure,
A rotating electrical machine capable of moving up and down the elevator car, an encoder for detecting a rotor phase of the rotating electrical machine, and a drive system device including a current sensor for detecting a current of a wiring connected to the rotating electrical machine;
A brake capable of braking the basket;
An elevator control device that controls the drive system device based on the rotor phase detected by the encoder and the current value detected by the current sensor;
A remote recovery device that communicates with the elevator control device and causes the elevator control device to perform a failure recovery operation;
With
The elevator control device transmits a failure signal to the remote recovery device when an abnormality of the drive system device is detected based on the rotor phase and the current value,
The remote recovery device is:
When the failure signal of the drive system device is received, the elevator control device is caused to execute an emergency operation for raising and lowering the car by intermittent braking of the brake in a state where supply of powering power to the rotating electrical machine is stopped. ,
Based on the rotor phase and the current value at the time of the emergency operation, it is determined whether or not to perform a magnetic pole correction operation for the rotating electrical machine that is executed as the recovery operation.
Remote recovery system for elevator failure. - 請求項1に記載のエレベーター故障の遠隔復旧システムであって、
前記非常運転時の前記回転子位相の周波数と、前記非常運転に伴って回生駆動させられる前記回転電機から出力された前記電流値の周波数との差が所定差以内である場合に、前記遠隔復旧装置は、前記エレベーター制御装置に対して前記磁極補正運転を実行させる、エレベーター故障の遠隔復旧システム。 A remote recovery system for an elevator failure according to claim 1,
When the difference between the frequency of the rotor phase during the emergency operation and the frequency of the current value output from the rotating electrical machine that is regeneratively driven during the emergency operation is within a predetermined difference, the remote recovery An apparatus is a remote recovery system for an elevator failure that causes the elevator control device to execute the magnetic pole correction operation. - 請求項1に記載のエレベーター故障の遠隔復旧システムであって、
前記非常運転時の前記回転子位相の波形、及び、前記非常運転時の前記電流値の波形の少なくとも一方が非周期的である場合に、前記遠隔復旧装置は、前記エレベーター制御装置に対して前記磁極補正運転の実行を禁止する、エレベーター故障の遠隔復旧システム。 A remote recovery system for an elevator failure according to claim 1,
When at least one of the waveform of the rotor phase during the emergency operation and the waveform of the current value during the emergency operation is aperiodic, the remote recovery device Remote elevator recovery system that prohibits execution of magnetic pole correction operation.
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JP2018558613A JP6587759B2 (en) | 2016-12-28 | 2016-12-28 | Elevator malfunction remote recovery system |
KR1020197017124A KR102221491B1 (en) | 2016-12-28 | 2016-12-28 | Elevator breakdown remote recovery system |
CN201680091666.XA CN110088024B (en) | 2016-12-28 | 2016-12-28 | Remote recovery system for elevator fault |
PCT/JP2016/089121 WO2018123027A1 (en) | 2016-12-28 | 2016-12-28 | Remote recovery system for elevator failure |
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JP2007306635A (en) * | 2006-05-08 | 2007-11-22 | Mitsubishi Electric Corp | Controller for elevator |
JP2016141564A (en) * | 2015-02-05 | 2016-08-08 | フジテック株式会社 | Elevator control system |
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CN101259930B (en) * | 2008-04-10 | 2010-11-03 | 上海交通大学 | Elevator door system state monitoring and fault early warning system |
JP2009280318A (en) * | 2008-05-20 | 2009-12-03 | Mitsubishi Electric Corp | Control device for elevator |
KR100949849B1 (en) * | 2008-07-04 | 2010-03-29 | (주)에이치피엔알티 | A System ? A Method For Elevator Operation Rescuing Passengers From An Elevator Cage |
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