JP6455356B2 - Elevator monitoring system - Google Patents

Description

  The present invention relates to an elevator monitoring system.

  Patent document 1 discloses an elevator monitoring system. The elevator monitoring system predicts the inundation height for each building provided with an elevator based on precipitation information and topographic information.

JP 2004-203562 A

  However, in the thing of patent document 1, only the precipitation information of the said area is considered regarding the precipitation. For this reason, the inundation height for each building provided with the elevator cannot be accurately predicted.

  The present invention has been made to solve the above-described problems. An object of the present invention is to provide an elevator monitoring system that can more accurately predict the flooding height of each building provided with an elevator.

The elevator monitoring system according to the present invention includes a cumulative precipitation prediction unit that predicts cumulative precipitation for each region based on rainfall information, topographic information, a cumulative precipitation predicted by the cumulative precipitation prediction unit, and the region Inundation height prediction section that predicts the inundation height of each building with an elevator based on the accumulated rainfall in the area upstream of the river, current or past inundation information, aquarium flood information, and power outage A building having an elevator to which warning information is to be output is determined based on at least one of the information and the inundation height predicted by the inundation height prediction unit; A target building determination unit that determines a building including an elevator that is excluded from the output target of warning information based on the accumulated precipitation and the fine topographic gradient in the vicinity .

  According to the present invention, the inundation height for each building provided with the elevator is calculated based on the topographic information and the cumulative precipitation predicted by the cumulative precipitation prediction unit, and the cumulative precipitation in the area upstream of the area. Predicted based on For this reason, the inundation height for every building provided with the elevator can be predicted more accurately.

It is a block diagram of the elevator monitoring system in Embodiment 1 of this invention. It is a figure for demonstrating the setting method of the 1st threshold value to the 3rd threshold value in the elevator monitoring system in Embodiment 1 of this invention. It is a flowchart for demonstrating operation | movement of the elevator monitoring system in Embodiment 1 of this invention. It is a flowchart for demonstrating operation | movement of the elevator monitoring system in Embodiment 1 of this invention. It is a hardware block diagram of the elevator monitoring system in Embodiment 1 of this invention.

  A mode for carrying out the invention will be described with reference to the accompanying drawings. In addition, the same code | symbol is attached | subjected to the part which is the same or it corresponds in each figure. The overlapping explanation of the part is appropriately simplified or omitted.

Embodiment 1 FIG.
1 is a block diagram of an elevator monitoring system according to Embodiment 1 of the present invention.

  In FIG. 1, a plurality of buildings 1 are provided in various areas. Each building 1 includes an elevator 2. Each of the elevator monitoring devices 3 is provided corresponding to each of the elevators 2. For example, the elevator monitoring system 4 is provided in a maintenance company for the elevator 2.

  The elevator monitoring system 4 centrally manages the maintenance and inspection status of each elevator 2 provided in the plurality of buildings 1 existing in each of various regions. Specifically, the elevator monitoring system 4 includes a storage unit 4a, an external information receiving unit 4b, a cumulative precipitation prediction unit 4c, a display unit 4d, an inundation height prediction unit 4e, an inundation warning determination unit 4f, and a target building determination unit 4g. And a warning information transmitter 4h.

  The memory | storage part 4a is provided with topography information, inundation assumption area map information, customer facility management information, and maintenance staff position information. For example, the terrain information includes information on a three-dimensional shape in each region. For example, the inundation assumed area map information includes information on the assumed inundation area map managed by the Ministry of Land, Infrastructure, Transport and Tourism. For example, the customer facility management information includes building position information, flood information for each building 1 generated in the past, aquarium flood information, and power outage information. The maintenance staff position information includes information on a position where the maintenance staff exists.

  The external information receiving unit 4b is connected to the public line network and receives various information from the outside. For example, the external information receiving unit 4b receives rainfall information including precipitation of high-resolution precipitation nowcast managed by the Japan Meteorological Agency from the weather service support center connected to the public line network every 5 minutes. For example, the external information receiving unit 4b receives rainfall information, water level information, and flow rate information in a river managed by the Ministry of Land, Infrastructure, Transport and Tourism from the public line network every hour. For example, the external information receiving unit 4b includes flood information on the current pits of the elevator 2 in the building 1, inundation information on water tanks such as water tanks for water supply and drainage facilities, lighting power and power supply for the elevator 2, or power receiving / transforming equipment. And the like, from the elevator monitoring apparatus 3 connected to the public line network.

  The accumulated precipitation prediction unit 4c plots the 5-minute precipitation received by the external information reception unit 4b in the area of topographic information in the storage unit 4a. The cumulative precipitation prediction unit 4c predicts the cumulative precipitation for each 250 m mesh area. The accumulated precipitation prediction unit 4c predicts the accumulated precipitation up to 1 hour after each region based on the precipitation up to 1 hour later.

  The display unit 4d displays the cumulative precipitation predicted by the cumulative precipitation prediction unit 4c for each region. The display unit 4d displays, for each region, the accumulated precipitation up to one hour later predicted by the accumulated precipitation prediction unit 4c.

  The inundation height prediction unit 4e predicts the inundation height for each building 1 from the accumulated precipitation predicted by the accumulated precipitation prediction unit 4c using the “mesh runoff model”. For example, the inundation height prediction unit 4e is predicted by the micro-topography gradient such as the elevation value of 10m or 50m mesh of the terrain information stored in the storage unit 4a using the “mesh runoff model” and the cumulative precipitation prediction unit 4c. Runoff is calculated from accumulated precipitation. The inundation height prediction unit 4e predicts the inundation height for each building 1 based on the outflow amount.

  Note that the “mesh runoff model” is a model that inputs precipitation for each mesh and calculates the infiltration of rain into the ground, the runoff transmitted through the ground, and the runoff transmitted through the ground surface. In the “mesh outflow model”, an outflow gathering from a mesh is traced downstream by approximating a flow path along the boundary of the mesh.

  The inundation height prediction unit 4e predicts the inundation height for each building 1 in consideration of rainfall information, water level information, flow information, and accumulated precipitation in the area upstream of the river from the area. To do.

  The inundation alert determination unit 4f determines the inundation alert for each building 1 based on the inundation height predicted by the inundation height prediction unit 4e. For example, the inundation alert determination unit 4f determines the inundation alert by numerical operation, logical operation, or the like. For example, the determination information is binary or class output. When the storage unit 4a includes river inundation assumed area map information or inland inundation assumed area map information, the inundation warning determination unit 4f includes rainfall information, water level information, flow rate information, and accumulated precipitation information in each river in the area. Based on this, the possibility of river inundation or internal water is also determined.

  The target building determination unit 4g determines the building 1 including the elevator 2 that is the output target of the warning information according to the determination result of the inundation warning determination unit 4f. For example, the target building determination unit 4g considers at least one of past flooding information, aquarium flood information, power outage information, and response history in the customer facility management information stored in the storage unit 4a, and outputs warning information. The building 1 provided with the elevator 2 is determined. For example, the target building determination unit 4g determines the building 1 including the elevator 2 that is an output target of the warning information in consideration of at least one of current flooding information, aquarium flood information, and power failure information. When there are a plurality of target buildings 1, the target building determination unit 4 g determines the priority order when performing the restoration work on the plurality of target buildings 1.

  The target building determination unit 4g includes the building 1 including the elevator 2 that is excluded from the output target of the warning information based on the predicted precipitation amount after one hour, the cumulative precipitation amount, the surrounding cumulative precipitation amount, and the fine topographic gradient. judge.

  The warning information transmission unit 4h transmits the warning information to the elevator monitoring device 3 corresponding to the elevator 2 that is the output target of the warning information based on the determination result by the target building determination unit 4g. For example, when the inundation height predicted by the inundation height prediction unit 4 e exceeds the first threshold value, the alert information transmission unit 4 h transmits the first alert information to the elevator monitoring device 3 of the building 1. For example, when the inundation height predicted by the inundation height prediction unit 4e exceeds the second threshold value, the alert information transmitting unit 4h transmits the second alert information to the elevator monitoring device 3 of the building 1. For example, when the inundation height predicted by the inundation height prediction unit 4e exceeds the third threshold value, the alert information transmitting unit 4h transmits the third alert information to the elevator monitoring device 3 of the building 1.

  The warning information transmission unit 4h transmits the release information to the elevator monitoring device 3 corresponding to the elevator 2 that is excluded from the output target of the warning information based on the determination result by the target building determination unit 4g. For example, when the inundation height predicted by the inundation height prediction unit 4e exceeds the first threshold value and becomes less than the first threshold value, the warning information transmission unit 4h sends the release information to the elevator monitoring device 3 of the building 1 Send.

  For example, the warning information transmitting unit 4h is a maintenance existing within a preset range from the building 1 determined to be the building 1 having the elevator 2 that is the output target of the warning information by the target building determining unit 4g. Alert information or return route information is transmitted to the portable terminal 5 of the worker.

  For example, the alert information transmitting unit 4h is preset from the building 1 when the external information receiving unit 4b receives at least one of the current flooding information, aquarium flooding information, and power outage information in the building 1. The warning information is transmitted to the elevator monitoring device 3 of the building 1 existing within the range. For example, the alert information transmitting unit 4h is preset from the building 1 when the external information receiving unit 4b receives at least one of the current flooding information, aquarium flooding information, and power outage information in the building 1. The alert information is transmitted to the portable terminal 5 of the maintenance person existing within the range.

  The elevator monitoring device 3 controls the elevator 2 based on the information received from the warning information transmission unit 4h. For example, the elevator monitoring device 3 displays a warning message on the display inside the car of the elevator 2 when the first warning information is received from the warning information transmission unit 4h. For example, the elevator monitoring device 3 outputs a warning sound to a speaker inside the car of the elevator 2 when the first warning information is received from the warning information transmission unit 4h. For example, the elevator monitoring device 3 waits the car on the upper floor when the car of the elevator 2 is not used when the second warning information is received from the warning information transmitting unit 4h. For example, the elevator monitoring device 3 pauses the car of the elevator 2 on the upper floor when receiving the third warning information from the warning information transmitting unit 4h. For example, the elevator monitoring device 3 returns the elevator 2 to the normal operation when receiving the release information from the warning information transmitting unit 4h.

Next, a method for setting the first threshold value to the third threshold value will be described with reference to FIG.
FIG. 2 is a diagram for explaining a method of setting the first threshold value to the third threshold value in the elevator monitoring system according to Embodiment 1 of the present invention.

  The accumulated precipitation predicting unit 4c predicts the accumulated precipitation for one hour by accumulating the accumulated precipitation for 5 minutes for one hour. The error at this time falls within the range of −2ε to + ε with a probability of 70%. The first threshold value to the third threshold value are set in consideration of the error.

  In high-resolution precipitation nowcasts, the predicted precipitation is often greater than the actual precipitation. For this reason, it is possible to reduce the value of ε by widening the probability interval to the side where there is less than the predicted value.

Next, operation | movement of the elevator monitoring system 4 is demonstrated using FIG. 3 and FIG.
3 and 4 are flowcharts for explaining the operation of the elevator monitoring system according to the first embodiment of the present invention.

  In step S1, the cumulative precipitation prediction unit 4c predicts the cumulative precipitation up to one hour after each region. In step S2, the inundation height prediction unit 4e predicts the inundation height for each region from the accumulated precipitation predicted by the accumulated precipitation prediction unit 4c using the “mesh runoff model”. In step S3, the inundation height predicting unit 4e calculates the inundation height for each region based on the rainfall information, water level information, flow rate information, and accumulated precipitation in the region upstream of the region. Predict.

  In step S4, the inundation warning determination unit 4f determines whether or not the inundation height predicted by the accumulated precipitation prediction unit 4c in the building 1 exceeds the first threshold value.

  When the inundation height predicted by the accumulated precipitation prediction unit 4c in step S4 does not exceed the first threshold value, the process proceeds to step S5. In step S5, the target building determination unit 4g determines that the building 1 does not include the elevator 2 that is the output target of the warning information.

  When the inundation height predicted by the accumulated precipitation prediction unit 4c in step S4 exceeds the first threshold value, the process proceeds to step S6. In step S6, the inundation warning determination unit 4f determines whether or not the inundation height predicted by the accumulated precipitation prediction unit 4c in the building 1 exceeds the second threshold value.

  If the inundation height predicted by the cumulative precipitation prediction unit 4c in step S6 does not exceed the second threshold value, the process proceeds to step S7. In step S7, the target building determination unit 4g determines that the building 1 includes the elevator 2 that is the output target of the first warning information. At this time, the warning information transmitter 4 h transmits the first warning information to the elevator monitoring device 3 of the building 1.

  If the inundation height predicted by the cumulative precipitation prediction unit 4c in step S6 exceeds the second threshold value, the process proceeds to step S8. In step S8, the warning information transmitting unit 4h determines whether or not a maintenance person exists in the area where the building 1 exists.

  If there is no maintenance person in the area where the building 1 exists in step S8, the operation ends. If there is a maintenance person in the area where the building 1 exists in step S8, the process proceeds to step S9. In step S9, the warning information transmitter 4h transmits the warning information to the portable terminal 5 of the maintenance staff.

  If the inundation height predicted by the cumulative precipitation prediction unit 4c in step S6 exceeds the second threshold value, the process proceeds to step S10. In step S10, the inundation warning determination unit 4f determines whether or not the inundation height predicted by the accumulated precipitation prediction unit 4c exceeds the third threshold value.

  When the inundation height predicted by the accumulated precipitation prediction unit 4c in step S10 does not exceed the third threshold value, the process proceeds to step S11. In step S11, the target building determination unit 4g determines that the building 1 includes the elevator 2 that is the output target of the second warning information. At this time, the warning information transmitting unit 4 h transmits the second warning information to the elevator monitoring device 3 of the building 1.

  When the inundation height predicted by the accumulated precipitation prediction unit 4c in step S10 exceeds the third threshold value, the process proceeds to step S8. In step S8, the warning information transmitting unit 4h determines whether or not a maintenance person exists in the area where the building 1 exists.

  If there is no maintenance person in the area where the building 1 exists in step S8, the operation ends. If there is a maintenance person in the area where the building 1 exists in step S8, the process proceeds to step S9. In step S9, the warning information transmitter 4h transmits the warning information to the portable terminal 5 of the maintenance staff.

  When the inundation height predicted by the accumulated precipitation prediction unit 4c in step S10 exceeds the third threshold value, the process proceeds to step S12. In step S12, the target building determination unit 4g determines that the building 1 includes the elevator 2 that is the output target of the third warning information. At this time, the warning information transmitter 4 h transmits the third warning information to the elevator monitoring device 3 of the building 1.

  According to the first embodiment described above, the inundation height for each building 1 provided with the elevator 2 is determined by the topographic information and the cumulative precipitation predicted by the cumulative precipitation prediction unit 4c and the river more than the area. Predicted based on cumulative rainfall in the upstream region. For this reason, the inundation height for every building 1 provided with the elevator 2 can be predicted more accurately.

  In addition, the building 1 including the elevator 2 to which warning information is output is predicted by at least one of current or past flood information, aquarium flood information, and power outage information of the building, and the inundation height prediction unit 4e. Judgment is made based on the flooded height. For this reason, it can prevent more reliably that the user of the elevator car 2 is confined by heavy rain.

  Moreover, the warning information transmission part 4h transmits warning information to the elevator monitoring apparatus 3 corresponding to the elevator 2 which is the output target of the warning information based on the determination result by the target building determination part 4g. For this reason, the control operation of the elevator 2 can be started at an appropriate timing. Elevator equipment failures can be minimized.

  Moreover, the warning information transmission part 4h transmits warning information or return route information to the portable terminal 5 of the maintenance worker who exists in the inside of the range preset from the building 1 provided with the elevator 2 used as the output object of a warning. . For this reason, the safety of maintenance personnel can be ensured.

  Moreover, the warning information transmission part 4h exists in the inside of the range preset from the said building 1 when the external information reception part 4b receives at least one of flooding information, aquarium flooding information, and power failure information The warning information is transmitted to the elevator monitoring device 3 of the building 1 or the portable terminal 5 of the maintenance staff. For this reason, it can prevent more reliably that the user of the elevator car 2 is confined by heavy rain. In addition, the safety of maintenance personnel can be ensured more reliably.

  Moreover, the warning information transmission part 4h transmits the warning information according to the inundation height predicted by the inundation height prediction part 4e to the elevator monitoring apparatus 3. For this reason, the control operation of the elevator 2 can be appropriately set according to the flooding height. As a result, the safety of the elevator user can be ensured.

Next, an example of the elevator monitoring system 4 will be described with reference to FIG.
FIG. 5 is a hardware configuration diagram of the elevator monitoring system according to Embodiment 1 of the present invention.

  Each function of the elevator monitoring system 4 is realized by a processing circuit. For example, the processing circuit includes at least one processor 6a and at least one memory 6b. For example, the processing circuit comprises at least one dedicated hardware 7.

  When the processing circuit includes at least one processor 6a and at least one memory 6b, each function of the elevator monitoring system 4 is realized by software, firmware, or a combination of software and firmware. At least one of software and firmware is described as a program. At least one of software and firmware is stored in at least one memory 6b. At least one processor 6a implements each function of the elevator monitoring system 4 by reading and executing a program stored in at least one memory 6b. The at least one processor 6a is also referred to as a CPU (Central Processing Unit), a central processing unit, a processing unit, an arithmetic unit, a microprocessor, a microcomputer, and a DSP. For example, the at least one memory 6b is a nonvolatile or volatile semiconductor memory such as a RAM, a ROM, a flash memory, an EPROM, or an EEPROM, a magnetic disk, a flexible disk, an optical disk, a compact disk, a mini disk, a DVD, or the like.

  If the processing circuit comprises at least one dedicated hardware 7, the processing circuit is, for example, a single circuit, a composite circuit, a programmed processor, a parallel programmed processor, an ASIC, an FPGA, or a combination thereof. is there. For example, each function of the elevator monitoring system 4 is realized by a processing circuit. For example, each function of the elevator monitoring system 4 is collectively realized by a processing circuit.

  About each function of the elevator monitoring system 4, a part may be implement | achieved by the hardware 7 for exclusive use, and a part may be implement | achieved by software or firmware. For example, the function of the display unit 4d is realized by a processing circuit as the dedicated hardware 7. For the functions other than the display unit 4d, at least one processor 6a reads and executes a program stored in at least one memory 6b. It may be realized by doing.

  Thus, the processing circuit realizes each function of the elevator monitoring system 4 by the hardware 7, software, firmware, or a combination thereof.

  DESCRIPTION OF SYMBOLS 1 Building, 2 Elevator, 3 Elevator monitoring apparatus, 4 Elevator monitoring system, 4a Memory | storage part, 4b External information receiving part, 4c Cumulative precipitation prediction part, 4d Display part, 4e Inundation height prediction part, 4f Inundation warning judgment part, 4g Target building determination unit, 4h Warning information transmission unit, 5 Mobile terminal, 6a Processor, 6b Memory, 7 Hardware

Claims (5)

A cumulative precipitation forecasting unit that predicts cumulative precipitation for each region based on rainfall information;
Inundation for predicting the inundation height of each building with an elevator based on topographic information, the accumulated precipitation predicted by the accumulated precipitation prediction unit, and the accumulated precipitation in the area upstream of the area A high prediction section;
A building having an elevator to which warning information is output based on at least one of current or past inundation information, aquarium flood information, and power outage information in a building and an inundation height predicted by the inundation height prediction unit Target building judgment unit that judges the building with the elevator that judges the thing and then excludes it from the output target of warning information based on the predicted precipitation, accumulated precipitation, surrounding accumulated precipitation, and fine topographic gradient When,
Elevator monitoring system with A warning information transmission unit that transmits warning information to an elevator monitoring device corresponding to an elevator that is an output target of warning information based on a determination result by the target building determination unit;
The elevator monitoring system according to claim 1 , comprising: The warning information transmitting unit is a portable terminal of a maintenance worker that exists in a preset range from a building that is determined to be a building including an elevator to which warning information is output by the target building determining unit. The elevator monitoring system according to claim 2 which transmits warning information or return route information. An external information receiver that receives current flooding information, aquarium flooding information, and building power outage information,
With
The warning information transmitting unit is configured so that when the external information receiving unit receives at least one of current flooding information, aquarium flooding information, and power outage information in a building, the inside of a range set in advance from the building The elevator monitoring system of Claim 2 or Claim 3 which transmits warning information to the elevator monitoring apparatus of the building which exists in this, or the portable terminal of a maintenance worker. The warning information transmission unit transmits the warning information according to the inundation height predicted by the inundation height prediction unit to the elevator monitoring device of the building including the elevator to which the warning information is output by the target building determination unit. The elevator monitoring system according to any one of claims 2 to 4 .

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