JP2017019607A - Remote monitoring system for elevator - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a remote monitoring system for an elevator which can preferentially and adequately notify, at the occurrence of a wide area disaster, not only the confinement of a user in a car but also a facility environment and an operation status of the elevator according to importance, and can perform a patrol indication for recovery operation more efficiently.SOLUTION: In the system, a monitoring center device 20 transmits a preferential notification parameter indicating a notification preferential item with respect to user information including a facility environment of an elevator, with its criterion and points, to a monitoring device 10 via a communication circuit 7. The monitoring device 10 determines whether or not an abnormal signal which is inputted from a control device 5 coincides with elevator abnormality detection related to a parameter. When the abnormal signal does not coincide with the elevator abnormality detection, repeats the determination, and when the signal coincides with the detection, sets a time up to the notification from the abnormality detection following a Poisson distribution on the basis of a total value which is added with a point corresponding to a determination condition of the parameter. When the set time elapses, the monitoring device performs the notification to the center device 20, and when the time does not elapses yet, withholds the notification.SELECTED DRAWING: Figure 1

Description

  The present invention relates to an elevator remote monitoring system that monitors the operating state of an elevator (car) and the presence or absence of an abnormality.

  Conventionally, in this type of elevator remote monitoring system, when an abnormality occurs in the elevator (car), the monitoring device receives an abnormality signal from the elevator control device and processes information for communication. Via a monitoring center device installed at a remote location.

  In such a remote monitoring system for elevators, when a wide-area disaster such as an earthquake occurs, the reporting of abnormal signals to the monitoring center device concentrates, so the reception of the notification from the monitoring device in which passengers are confined in the car is delayed. May interfere with the rescue of passengers.

  Therefore, a technology has also been proposed to prevent delays in receiving reports on the monitoring center device side in the event of such a wide-area disaster. For example, in the event of a wide-area disaster such as an earthquake, the subscriber line on the monitoring center side Examples include an “elevator remote monitoring device” (see Patent Document 1) that reduces the amount of calls and reliably reports with a high degree of urgency.

JP 2003-73050 A

  When the monitoring device detects an elevator abnormality from the control device, the technology described in Patent Document 1 described above determines whether or not a user (passenger) is trapped in the car when the seismic sensor is operating. Judgment and delaying notifications for reports other than those with a high degree of urgency at the time of confinement determination will reduce the amount of calls on the communication line on the monitoring center side so that important reports can be reliably communicated to the monitoring center It is a thing.

  However, according to such a method, the function of reporting to the monitoring center side is given preferential treatment only when passengers are confined in the car at the time of the earthquake, and simultaneous notification is performed when other abnormalities occur. In such a situation, there is a problem that the receiving line on the monitoring center side is busy and cannot solve the trouble that can not be connected at once, and in the case of an earthquake, users in the car Even if there is no confinement, the elevator must be restored after the seismic detector is activated, but this will cause delays in reporting to the monitoring center. There is also a problem in the basic function that it is not possible to efficiently instruct the elevator restoration work.

  The present invention has been made in order to solve such problems, and its technical problem is not only the confinement of users in the car when a wide-area disaster occurs, but also the facility environment and operation status of the elevator. It is an object of the present invention to provide a remote monitoring system for an elevator that can preferentially and accurately report according to importance and can efficiently perform a patrol instruction for restoration work.

  In order to solve the above technical problem, the first means of the present invention includes a control device that outputs an abnormality signal when an abnormality including a wide-area disaster occurs in an elevator car, an operating state of the car, and an abnormality A monitoring device that monitors presence / absence and processes information for communication when an abnormal signal is received, and is connected to the monitoring device via a communication line and installed in a remote location, and the abnormal signal communicated from the monitoring device In an elevator remote monitoring system comprising a monitoring center device that receives and manages a report, the monitoring center device includes customer information storage means for storing customer information including the facility environment of the elevator, and priority for reporting to customer information Priority notification parameter storage means storing priority notification parameters indicating items, points given to each priority notification parameter, and priority communication for assigning the points And a priority notification parameter setting means for managing the determination conditions for the parameters and transmitting and setting the priority notification parameters to the monitoring apparatus via the communication line so as to attach the determination conditions and the points. Determines whether the abnormal signal input from the control device matches the elevator abnormality detection related to the priority notification parameter set by the priority notification parameter setting means. Repeat the determination, and if they match, set the time from abnormality detection to notification according to a predetermined distribution set in advance based on the total value obtained by adding the points corresponding to the determination condition of the priority notification parameter, If the time has elapsed, a notification is sent to the monitoring center device via the communication line, and if the time has not passed, the notification is kept. Characterized by comprising a notification active processing function to.

  According to the present invention, according to the above-described configuration, not only can the user be confined in the car when a wide-area disaster occurs, but also notification can be given preferentially and appropriately according to the importance of the facility environment and operation status of the elevator. Thus, it is possible to efficiently instruct the recovery work. Problems, configurations, and effects other than those described above will be clarified by the following description of embodiments.

It is the block diagram which showed the basic composition of the remote monitoring system for elevators based on the Example of this invention. It is the schematic diagram which illustrated the customer information stored in the customer information database with which the monitoring center apparatus of the remote monitoring system for elevators shown in FIG. 1 is equipped. It is the schematic diagram which illustrated the priority notification parameter stored in the priority notification parameter base with which the monitoring center apparatus of the remote monitoring system for elevators shown in FIG. The monitoring center device reports the setting distribution (Poisson distribution) used for the time setting from the abnormality detection to the notification by the notification active processing function of the monitoring device of the elevator remote monitoring system shown in FIG. 1 for the time from the abnormality detection to the notification. It is the figure illustrated by the relationship with the number of reception. It is the flowchart which showed the operation | movement process until it detects an abnormality which concerns on the alerting active processing function of the monitoring apparatus in the remote monitoring system for elevators shown in FIG. 1, and reports to a monitoring center apparatus.

  Hereinafter, an elevator remote monitoring system according to the present invention will be described in detail with reference to the drawings.

  FIG. 1 is a block diagram showing a basic configuration of an elevator remote monitoring system according to an embodiment of the present invention.

  Referring to FIG. 1, this remote monitoring system is a control device that outputs an abnormality signal when an abnormality including a wide area disaster occurs in a car 1 that moves up and down between floors in an elevator hoistway installed in a building. 5, a monitoring device 10 that monitors the operating state of the car 1 and whether there is an abnormality and processes information for communication when an abnormal signal is received, and is connected to the monitoring device 10 via a communication line 7 and installed in a remote place And a monitoring center device 20 that receives and manages a notification of an abnormal signal that has been subjected to communication processing from the monitoring device 10. As for the elevator, as is well known, a main rope 2 having a car 1 coupled to one end and a counterweight 3 coupled to the other end is wound around a hoisting machine 4, and the machine at the upper part of the hoistway The hoisting machine 4 is controlled by the control device 5 provided in the room, so that the driving force is transmitted to the car 1 and the counterweight 3 via the main rope 2. As a result, the car 1 and the counterweight 3 are in conflict. It is designed to move up and down in a seesaw manner. In addition, a seismometer 6 is provided at the bottom (pit) of the hoistway to output a detection signal obtained by measuring the shaking of the earthquake when an earthquake occurs as an example of the occurrence of a disaster. The control device 5 that is sent out and receives the sensing signal controls the hoisting machine 4 to execute an elevator seismic control operation. In FIG. 1, one system of elevator is shown, but in practice, the monitoring device 10 connected to the communication line 7, the control device 5, and the elevators installed in the building are installed in each region. It can be regarded as a system.

  Among these, the monitoring center device 20 includes a customer information database 24 as customer information storage means for storing customer information including the facility environment of the elevator, and a priority notification parameter storing priority notification parameters indicating priority items for notification with respect to customer information. A functional means constructed by cooperation of the priority notification parameter database 25 as a storage means and the communication device 21, processing device 22, and console 23 connected to the communication line 7, and is assigned to each priority notification parameter. Priority to be set by transmitting the priority notification parameter to the monitoring device 10 via the communication line 7 and adding the determination condition and the score while managing the score and the determination condition for the priority notification parameter for giving the score. Reporting parameter setting means. That is, when the elevator is installed in a new building, the operator console 23 here has a maintenance contract between the owner of the building and the elevator maintenance company, and the monitoring center 10 is installed when the monitoring device 10 is installed. This is used when the processing device 22 stores the customer information data created in the customer information database 24. The communication device 21 connected to the communication line 7 performs communication with the monitoring device 10. Further, the processing device 22 collects and manages the operation information of the elevator from the monitoring device 10 in addition to performing the initial setting for the monitoring device 10 to monitor the abnormality of the elevator.

  The monitoring device 10 has a notification active processing function constructed by cooperation of the communication device 12, the processing device 11, and the determination device 13 connected to the communication line 7, and the abnormal signal input from the control device 5 has priority. As a result of determining whether or not the elevator abnormality detection related to the priority notification parameter set by the notification parameter setting means matches, if it does not match, it is considered that no abnormality has been detected, and the determination is repeated. Based on the total value obtained by adding the points corresponding to the judgment condition of the report parameter, the time from the abnormality detection to the report is set according to a predetermined distribution set in advance, and if the time elapses, it is monitored via the communication line 7 A notification is sent to the center device 20, and if the time has not passed, the notification is put on hold. That is, the determination device 13 here has a function of storing the customer information in the customer information database 24 and the priority notification parameters managed in the priority notification parameter database 25 by the initial setting from the monitoring center device 20, When an abnormality is detected in the abnormality signal from the control device 5, the time until the monitoring center device 20 is notified is determined based on the elevator specification information and operation information acquired from the control device 5 and the initially set information. Then, after the time obtained as the determination result has elapsed, the processing operation is instructed to the processing device 11 and a notification is sent to the monitoring center device 20 via the communication device 12 and the communication line 7.

  FIG. 2 is a schematic diagram illustrating customer information stored in the customer information database 24 provided in the monitoring center device 20.

  Referring to FIG. 2, the customer information includes the facility environment of the elevator. The item type includes management number 24a, customer name 24b, postal code 24c, address 24d, monitoring device identification code 24e, monitoring device telephone number 24f, A building usage flag 24g is included. Although not shown, the item type may include a password. In this embodiment, for example, the building usage flag 24g indicates the rank frequency in the usage of the building where the elevator is installed. If it is a public facility such as a hospital, 1 is registered, otherwise 0 is registered. I have to.

  FIG. 3 is a schematic diagram illustrating the priority notification parameters stored in the priority notification parameter base 25 provided in the monitoring center device 20 and the determination conditions and points associated therewith.

  Referring to FIG. 3, the priority notification parameter base 25 stores a priority notification parameter 25a, a determination condition 25b related thereto, and a score 25c. The priority notification parameter 25a includes the presence / absence of confinement of a user (passenger) in the car 1 when an elevator failure is detected, the occurrence of a wide-area disaster when an elevator failure is detected, the operational status of the seismometer 6, the building use flag 24g, including the traveling speed and the number of floors when the failure detection of the elevator collected by the monitoring device 10 from the control device 5 is included, any setting for preferentially reporting other contents is also possible. Further, a determination condition 25 b and a score 25 c are set for each content of the priority notification parameter base 25. By initializing the contents of the priority notification parameter base 25 in the monitoring device 10, for example, if the determination device 13 of the monitoring device 10 has a user (passenger) confinement in the car 1 when an elevator failure is detected, 60 points If the seismometer 6 is operating, 20 points can be summed up and 80 points can be determined and stored. The other contents of the determination condition 25b and the score 25c in FIG. 3 will be described in detail later.

  FIG. 4 shows the setting distribution (Poisson distribution) used for the time setting from the abnormality detection to the notification by the above-described notification active processing function of the monitoring device 10 in the monitoring center device 20 for the time (seconds) from the abnormality detection to the notification. It is the figure illustrated by the relationship with the number of report reception.

  Referring to FIG. 4, Poisson distributions are classified according to the score determined by the determination device 13 of the monitoring device 10 based on the contents of the priority notification parameter base 25. The distribution is divided into the above distribution 13b, the distribution 13c of 40 points or more, the distribution 13d of 30 points or more, and the distribution 13e of 20 points or more. Among these, for example, the distribution 13b of 50 points or more indicates that the time from the abnormality detection to the notification has a time width from 0 second to 8 seconds, and the setting distribution included in the operation process described in FIG. For selection, any number of seconds from 0 to 8 seconds is set by probability calculation.

  FIG. 5 is a flowchart illustrating an operation process from detecting an abnormality related to the notification active processing function of the monitoring device 10 in the elevator remote monitoring system according to the embodiment to reporting to the monitoring center device 20. However, here, customer information (contents of the item type shown in FIG. 2) in the customer information database 24 of the monitoring center apparatus 20 and information in the priority notification parameter database 25 (contents of the priority notification parameter 25a shown in FIG. It is assumed that the determination condition 25b and the content of the score 25c) are initially set in the monitoring device 10. Thereby, in the monitoring apparatus 10, the determination apparatus 13 determines whether or not the abnormality signal input from the control apparatus 5 matches the elevator abnormality detection related to the priority notification parameter set by the priority notification parameter setting means. become.

  The operation processing related to the notification active processing function of the monitoring device 10 will be described in detail with reference to FIG. 5. First, the processing device 11 of the monitoring device 10 monitors the presence / absence of an abnormal signal input from the control device 5. Based on this, it is determined whether or not an elevator abnormality has been detected (step S1). As a result of this determination, if the elevator abnormality is not detected, it is regarded that no abnormality has been detected, and the processing is repeated before the determination (step S1). However, if the elevator abnormality is detected, the time from the abnormality detection to the notification to the determination device 13 When the determination device 13 receives the request, the determination device 13 performs a point reset (0 point) process (step S2) to set the total score of the priority notification parameter 25a to 0 point. .

  Next, the determination device 13 of the monitoring device 10 determines whether or not there is a user (passenger) confinement in the car 1 according to the determination element of the determination condition 25b of the presence / absence of passenger confinement when a failure is detected in the priority notification parameter 25a. Is determined (step S3). If the result of this determination is that there is confinement, after the processing of point addition (60 points) for adding 60 points to the total score 0 (step S4) is performed, the priority notification parameter 25a is subsequently continued as in the case of no confinement. Whether or not the seismometer 6 has been operated is determined according to the operation determination element of the determination condition 25b of the seismometer 6 operation state at the time of failure detection (step S5). If the seismometer 6 is operating as a result of this determination, the seismometer 6 is subsequently operated after the point addition (20 points) (step S6) for adding 20 points to the total score 60 is performed. In the same manner as when there is not, according to the determination element of the determination condition 25b of the building usage flag 24g of the priority notification parameter 25a = 1, it is determined whether or not the building usage flag 24g is 1 (step S5). If the building usage flag 24g is 1 as a result of this determination, the building usage flag 24g is 1 after the processing of the point addition (10 points) (step S8) for adding 10 points to the total score 80 is performed. As in the case of 0, whether or not the traveling speed when the car 1 is abnormal exceeds 60 m / min according to the> 60 m / min determination element of the traveling speed determination condition 25b when the failure of the priority notification parameter 25a is detected It is determined whether or not (step S9). As a result of this determination, if the traveling speed exceeds 60 m / min, after the point addition (5 points) (step S10) for adding 5 points to the total score 90 is performed, the traveling speed continues to be 60 m / min. As in the case of not exceeding (60 m / min or less), the determination of whether or not the number of floors of the building is 16 floors or more according to the determination element of ≧ 16 of the determination condition 25b of the floor number of the priority notification parameter 25a (step S11) is performed. If the result of this determination is 16 floors or more, after performing the point addition (5 points) (step S12) to add 5 points to the total score 95, the same as when the floor is 15 floors or less Until the time setting distribution selection (step S13) is performed.

  In the time setting distribution selection process (step S13) described above, the determination device 13 selects a distribution corresponding to the total score of the priority notification parameters 25a from the Poisson distribution shown in FIG. For example, assuming that the total score of the priority notification parameter 25a is not only passenger confinement in the above-described processing flow, the total score is 40, and therefore a distribution 13c of 40 points or more is selected. Further, the determination device 13 performs a probability calculation (step S14) on the time from the time width from 0 second to 10 seconds of the distribution 13c of 40 points or more to the notification of the notification to the processing device 11 with the result. Set. Here, it is assumed that, for example, the time to report is 2 seconds by the probability calculation. Therefore, the processing device 11 determines whether or not a time (2 seconds) until reporting has passed (step S15). As a result of this determination, if the time until notification (2 seconds) has elapsed, the processing device 11 instructs the communication device 12 to notify the Fuji center device 20 via the communication line 7 (step S16). However, if the time until the notification (2 seconds) has not elapsed, the process is repeated by returning to this determination (step S15). Incidentally, a state in which the time until reporting (2 seconds) has not passed can be regarded as a pending state of abnormality reporting, but an abnormality reporting will occur soon.

  By the way, in the operation processing of the notification active processing function of the monitoring apparatus 10 shown in FIG. 5, the ratio of the points to be added can be arbitrarily changed. In the notification active processing function, if the abnormal signal input from the control device 5 does not coincide with the elevator abnormality detection related to the element of the determination condition 25b of the content of the preset priority notification parameter 25a, the score addition processing Is not done. For example, when the building is a high-rise building and a gust of wind enters the hoistway for some reason, such as when the window is left open during strong winds, etc., the car 1 vibrates and is stopped urgently. Even if an abnormal signal is input from the control device 5, the monitoring device 10 does not perform point addition processing. Of course, an abnormal signal in such a case is also added in advance to the elements of the determination condition 25b of the contents of the priority notification parameter 25a, and if the ratio of the points to be added is adjusted so that the sum of additions becomes 100, the points can be added. Processing can be performed.

  According to the elevator remote monitoring system according to the embodiment described above, the priority notification parameter indicating the priority items for notification to the customer information including the facility environment of the elevator by the monitoring center device 20 to the monitoring device 10 via the communication line 7. 25a is transmitted with the determination condition 25b and the score 25c, and the monitoring device 10 determines whether or not the abnormality signal received from the control device 5 matches the elevator abnormality detection related to the priority notification parameter 25a. If it does not match, repeat the determination, if it matches, set the time from abnormality detection to notification according to the Poisson distribution based on the total value obtained by adding the score 25c corresponding to the determination condition of the priority notification parameter 25a, A notification active process for notifying the monitoring center device 20 if the time has elapsed and placing the notification on hold if the time has not elapsed. In addition to confining users in the car 1 in the event of a wide-area disaster, it can give priority and accurate notifications according to the importance of the elevator's facility environment and operation status, as well as recovery work. A patrol instruction can be performed efficiently. The reason is, for example, in addition to confining users (passengers) in the car 1 at the time of an earthquake, etc., public facilities such as hospitals where early restoration is desired, frequently used elevators, and easy to break down when an earthquake occurs This is because traffic can be distributed from the monitoring terminal 10 related to the elevator that was in the traveling state of the car 1 to the monitoring center device 20 side, so that priority and appropriate abnormality notification can be made. As a result, priority is given to when an earthquake occurs. This is because it is possible for the monitoring center device 20 to quickly grasp the property object to which the return work must be circulated, and to efficiently instruct the maintenance inspector to circulate.

  In the elevator remote monitoring system according to the above-described embodiment, the configuration using the seismometer 6 that outputs a detection signal obtained by measuring the shaking of the earthquake at the time of the earthquake as an example of the occurrence of the disaster related to the elevator has been described. As a disaster detector that outputs a detection signal that detects a disaster when such a disaster occurs, a submersion sensor that outputs a submersion signal by detecting the inundation state due to inundation when inundation occurs, or thermal detection by fire in the event of a fire or Since a fire sensor that detects smoke and outputs a fire occurrence signal can be applied, and even if at least one of these is applied, an equivalent effect can be obtained, the elevator remote monitoring system of the present invention is It is not limited to the form described in the embodiments.

DESCRIPTION OF SYMBOLS 1 Car 2 Main rope 3 Balance weight 4 Hoisting machine 5 Control device 6 Seismometer 7 Communication line 10 Monitoring device 11, 22 Processing device 12, 21 Communication device 13 Judgment device 20 Monitoring center device 23 Console 24 Customer information database 25 Priority notification parameter database

Claims (3)

A control device that outputs an abnormal signal when an abnormality including a wide-area disaster occurs in an elevator car, and monitors the operating state of the car and whether there is an abnormality, and processes information for communication when the abnormal signal is received A monitoring center device connected to the monitoring device via a communication line and installed at a remote location, and receiving and managing a notification of the abnormal signal communicated from the monitoring device; In the remote monitoring system for elevators,
The monitoring center device includes customer information storage means for storing customer information including the facility environment of an elevator, priority notification parameter storage means for storing priority notification parameters indicating priority items for notification to the customer information, and the priority notification parameters. Manage the score given for each and the determination condition for the priority notification parameter for giving the score, and attach the determination condition and the score to the monitoring device via the communication line Priority notification parameter setting means for transmitting and setting
The monitoring device is consistent as a result of determining whether or not the abnormality signal input from the control device matches the elevator abnormality detection related to the priority notification parameter set by the priority notification parameter setting means. If there is no abnormality, the determination is repeated, and if they match, the abnormality is detected in accordance with a predetermined distribution set in advance based on a total value obtained by adding the points corresponding to the determination condition of the priority notification parameter. It has a notification active processing function that sets a time from notification to notification, notifies the monitoring center device via the communication line if the time has passed, and puts the notification on hold if the time has not elapsed A remote monitoring system for elevators. The elevator remote monitoring system according to claim 1,
The remote monitoring system for an elevator characterized in that the predetermined set distribution is a Poisson distribution indicating, as a characteristic, the relationship between the number of notifications received at the monitoring center device with respect to the time from abnormality detection to notification. In the wide area disaster remote monitoring system for elevators according to claim 1 or 2,
The determination condition related to the priority notification parameter is whether or not the user is confined in the car, whether or not the wide area disaster occurs, and whether or not the predetermined frequency rank is reached in the use of the building where the elevator is installed A remote monitoring system for an elevator, including whether or not an excess of a predetermined value for a traveling speed at an abnormal time in the operation state of the car is present and whether or not the predetermined number of floors of the building is exceeded.