JP2007137563A - Remote monitoring system and remote monitoring device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To easily provide information regarding maintenance/inspection work in an elevator, i.e., an object to be maintained/inspected. <P>SOLUTION: At starting of the maintenance/inspection work of the elevator, information of an installation building address of the elevator and the kind of the elevator obtained by reading second dimension code attached to the elevator by a cellular phone 4 is transmitted to a central device 5. The number of worker performing the maintenance/inspection work of the elevator installed in the same building is determined based on the information from the cellular phone 4 in the central device 5 and the number is superposed on map information and is displayed on a monitor. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a remote monitoring system and a remote monitoring apparatus that transmit and receive information related to maintenance and inspection of an elevator such as an elevator.

  2. Description of the Related Art Conventionally, workers who maintain and inspect elevators generally visit a plurality of sites in one day and perform maintenance and inspection operations at each site. Maintenance inspection work is scheduled in advance and is usually managed so that an operator moves along a predetermined patrol route at predetermined time intervals.

  In order to perform such management, the worker calls the monitoring center at the start of work on the site, and communicates the name, information on the site where the work is to be performed, and the fact that the work on the site is to be started. The information on the site where work is performed is, for example, the address of the building where the elevator is installed, the name of the building, and the like. When a plurality of elevators are installed on the premises of this building, the worker also transmits information on the elevator unit to the monitoring center.

  Then, the operator of the monitoring center records the name of the worker who is a matter to be transmitted by telephone, the location where the maintenance / inspection work is started, and the start of the maintenance / inspection work at this location. Such a transmission procedure and a recording procedure at the monitoring center are also performed at the end of the maintenance / inspection work, and are also performed at the start and end of the maintenance / inspection work at other destinations.

Further, as a technique for grasping the movement of the worker on the monitoring center side, as disclosed in, for example, Patent Document 1, a worker carries a GPS (Global Positioning System) receiver, and current position information obtained by the GPS receiver is obtained. There is a technique for transmitting a message to a monitoring center. In this technology, the monitoring center displays the current position information from the GPS receiver together with the map information on the monitor so that the operator of the elevator monitoring center can monitor whether there is a worker working in the elevator subject to maintenance and inspection. To make it easier to grasp.
JP-A-9-107410

  In the technique described above, the monitoring center superimposes, for example, a circle as current position information from the GPS receiver on the map information and displays the information on the monitor. When an emergency call from the elevator to be managed is confirmed on the monitoring center side, the emergency call source elevator mentioned above is selected from among workers who are geographically close to the building where the elevator is installed. You may want to go to

  In this case, the operator of the monitoring center needs to know the number of workers at a nearby work site, for example, and check whether the number is sufficient. However, when the monitoring center receives the position information from the GPS receiver of each worker in the same building, the current position information overlaps and is displayed on the monitor. Therefore, the operator of the monitoring center cannot confirm the number of workers at the work site on the monitor, and it is difficult to rush the worker to the elevator where the emergency call has been made.

  Of course, such problems are not limited to elevator maintenance and are common to all purposes of remotely monitoring workers.

  Therefore, an object of the present invention is to provide a remote monitoring system and a remote monitoring device that can easily recognize the number of workers.

  That is, the remote monitoring device according to the present invention receives information specifying the installation location of the monitoring target, and discriminates the number of mobile communication terminal devices from which the information specifying the same installation location in the received information is transmitted. Then, the information for specifying the received installation location and the determined number of pieces of information are displayed on the display unit together with the map information.

  In addition, the remote monitoring device according to the present invention includes position information storage means for receiving current position information detected at the installation location of the monitoring target and storing information for specifying the position of the installation location of the monitoring target. Determine the number of mobile communication terminal devices that are the transmission source of the received current position information within a predetermined range from the position of the monitoring target indicated by the stored information, and the position information of the monitoring target and the predetermined range The number of pieces of information that have already been identified is displayed on the display unit together with the map information.

  According to the present invention, the number of workers can be easily recognized. In each embodiment described below, the case where the present invention is applied to elevator remote monitoring is illustrated. However, the present invention can also be applied to general elevators such as escalators or remote monitoring of devices other than elevators.

Embodiments of the present invention will be described below with reference to the drawings.
(First embodiment)
First, a first embodiment of the present invention will be described.
FIG. 1 is a diagram showing an example of an elevator to be inspected and maintained according to the first embodiment of the present invention.
As shown in FIG. 1, a building 1 where a plurality of elevators to be inspected for maintenance are installed is provided with a No. 1 elevator hoistway 2a, a No. 2 elevator hoistway 2b, and a No. 3 elevator hoistway 2c. In the No. 1 elevator hoistway 2a, the No. 1 elevator car 3a moves up and down. In the No. 2 elevator hoistway 2b, the No. 2 elevator car 3b moves up and down. Further, in the No. 3 elevator hoistway 2c, the No. 3 elevator car 3c moves up and down.

  FIG. 2 is a diagram showing a configuration example of the elevator monitoring system according to the first embodiment of the present invention. FIG. 3 is a diagram showing a specific example of the two-dimensional code printed on the two-dimensional code seal 33 attached to the elevator car to be inspected and maintained according to the first embodiment of the present invention.

  As shown in FIG. 2, an in-car operation panel 32 is provided in the vicinity of the car door 31 inside the first car elevator car 3a (see FIG. 1). For example, a two-dimensional code seal 33 is attached to the lower part of the in-car operation panel 32. A two-dimensional code is printed on the two-dimensional code seal 33.

  As schematically shown in FIG. 3, the two-dimensional code is formed in a matrix, and each numerical value of the information digitized into “0” or “1” indicates the density (white) of each dot of the two-dimensional code. Or black). Since the two-dimensional code has information in the vertical direction and the horizontal direction, the amount of information that can be recorded is much larger than a linear bar code (one-dimensional code) used for merchandise management, for example. For example, a QR code (registered trademark) is widely known as such a two-dimensional code.

  The two-dimensional code printed on the two-dimensional code seal 33 includes the address of the building where the elevator corresponding to the place where the two-dimensional code seal 33 to be printed is attached and information on the elevator car. Further, these two-dimensionally coded information may be printed adjacent to the two-dimensional code in a state where it can be visually recognized such as character information.

  The two-dimensional code seal 33 is also attached to the car 3b and the car 3c. Specifically, the two-dimensional code printed on the two-dimensional code seal 33 affixed in the car 3b indicates the address of the building corresponding to the installation location of the elevator to which the car 3b belongs and the information on the elevator car of the elevator. It is.

  Further, the two-dimensional code printed on the two-dimensional code sticker 33 affixed in the car 3c indicates the address of the building corresponding to the installation location of the elevator to which the car 3c belongs and information on the elevator of the elevator.

  The mobile phone 4 is a mobile communication terminal device that is carried by an elevator inspection worker and carried during maintenance inspection work, and has a function of inputting the two-dimensional code seal 33 as image information. The center device 5 is a monitoring device provided in the elevator monitoring center. The mobile phone 4 decodes the information indicated by the two-dimensional code printed on the two-dimensional code sticker 33 and transmits the decoded information to the center device 5 by radio.

  The place where the two-dimensional code sticker 33 is attached corresponds to the elevator number indicated by the two-dimensional code printed on the two-dimensional code sticker 33 and is limited to the inside of the car as long as the mobile phone 4 can input it. For example, it may be a device in a machine room. The center device 5 displays the information transmitted from the mobile phone 4 as described above together with the map information on the monitor.

  FIG. 4 is a block diagram showing a configuration example of an internal circuit of the mobile phone 4 in the elevator monitoring system according to the first embodiment of the present invention. The description of the circuit configuration related to the voice call of the mobile phone 4 is omitted.

  As shown in FIG. 4, the mobile phone 4 carried by the inspection worker includes a control unit 41, a storage unit 42, a communication interface 43, an antenna 44, an input unit 45, a display unit 46, and a photographing device 47. The control unit 41 is connected to the storage unit 42, the input unit 45, the display unit 46, and the imaging device 47. The control unit 41 is connected to the antenna 44 through the communication interface 43.

  The control unit 41 controls the entire mobile phone 4. The storage unit 42 stores a program for control by the control unit 41. The storage unit 42 also stores a terminal number including an identification number uniquely associated with the mobile phone 4, for example, a manufacturing number. The communication interface 43 performs wireless communication with the center device 5.

The imaging device 47 inputs the two-dimensional code printed on the two-dimensional code sticker 33 when the imaging optical system is directed to the two-dimensional code sticker 33 and a predetermined operation is performed on the input unit 45. The image obtained by the above is output to the control unit 41.
The control unit 41 performs a decoding process on the output image, and transmits the decoded information to the center device 5 via the communication interface 43.

FIG. 5 is a block diagram showing a configuration example of an internal circuit of the center device 5 in the elevator monitoring system according to the first embodiment of the present invention.
As shown in FIG. 5, the center device 5 includes a control unit 51, a storage unit 52, a communication interface 53, an antenna 54, an input unit 55, and a display unit 56. The control unit 51 is connected to the storage unit 52, the input unit 55, and the display unit 56. The control unit 51 is connected to the antenna 54 via the communication interface 53.

  The control unit 51 controls the entire center device 5. The storage unit 52 stores a program for control by the control unit 51. In addition, the storage unit 52 stores the installed building of the elevator subject to maintenance management and map information around the building. The communication interface 53 performs wireless communication with the mobile phone 4.

FIG. 6 is a diagram showing an example of a building information table stored in the storage unit 52 of the center device 5 in the elevator monitoring system according to the first embodiment of the present invention in a table format.
The storage unit 52 of the center apparatus 5 further stores a building information table having a format as shown in FIG. 6 separately from the control program described above. In this building information table, information on the address of the installed building of each elevator to be maintained and the latitude / longitude information on this address are managed in association with each other. Single or multiple elevators are installed in each installation building.

FIG. 7 is a table showing an example of a personal information table stored in the storage unit 52 of the center device 5 in the elevator monitoring system according to the first embodiment of the present invention.
The storage unit 52 of the center device 5 further stores a personal information table having a format as shown in FIG. In this personal information table, information on the terminal number of the mobile phone 4, the name of the terminal owner, the affiliation of the owner, the telephone number, the latest work location, and the work status are associated and managed.

  The terminal owner name is the name of the inspection worker who is the owner of the mobile phone 4 corresponding to the terminal number managed on the personal information table. The affiliation includes information on the affiliation (sales office) and title of the terminal owner. The telephone number is the telephone number of the mobile phone 4 corresponding to the terminal number described above.

  The latest work location described above indicates the building installation address and elevator number of the latest maintenance / inspection object by the terminal owner managed on the personal information table. The elevator that is the latest maintenance and inspection is an elevator that is currently undergoing maintenance and inspection by the terminal owner.

The work status is information indicating the type of the maintenance / inspection work status of the elevator of the number machine associated on the personal information table.
There are two types of maintenance inspection work statuses indicated by the work status: “work in progress” and “out of work”. “Working” indicates that the inspection worker corresponding to the name of the owner associated with the personal information table is performing maintenance inspection work in the elevator of the unit at the latest work location. “Outside work” indicates that the inspection worker corresponding to the name of the holder associated with the personal information table is not performing maintenance inspection work (for example, before or after work).

FIG. 8 is a diagram showing an example of a work information table stored in the storage unit 52 of the center device 5 in the elevator monitoring system according to the first embodiment of the present invention in a table format.
The storage unit 52 of the center device 5 further stores a work information table in the format as shown in FIG. 8 independently for each building. In this work information table, the elevator installation building address, the name of the installation building, the terminal number of the mobile phone 4, the name of the terminal owner, the affiliation of the owner, the telephone number, and the elevator information are managed in association with each other.

  The terminal number managed in the work information table is the terminal number of the mobile phone 4 possessed by the inspection worker who is performing the inspection work in the installed building associated with this in the work information table.

  Moreover, the elevator machine managed by a work information table is an elevator machine in which the inspection worker who is inspecting in the installation building matched with this on the work information table is located.

  Next, the processing operation by the mobile phone 4 in the elevator monitoring system according to the first embodiment of the present invention will be described. FIG. 9 is a flowchart showing an example of the processing operation by the mobile phone 4 in the elevator monitoring system according to the first embodiment of the present invention.

  First, the inspection worker carries the mobile phone 4 that he / she owns and goes to the building where the elevator for maintenance inspection is installed. Here, it is assumed that the elevator car subject to maintenance inspection is the first elevator car 3a (see FIG. 1) that moves up and down the first elevator hoistway 2a of the building 1.

  Before the inspection worker performs maintenance and inspection work for the elevator, the operation mode of the mobile phone 4 is switched to the two-dimensional code reading mode by operating the input unit 45 of the mobile phone 4 according to a predetermined procedure.

  When the operation mode of the cellular phone 4 is the two-dimensional code reading mode, the inspection worker points the imaging optical system of the imaging device 47 of the cellular phone 4 toward the two-dimensional code seal 33 in the car 3a, and the input unit 45 is preliminarily set. When a predetermined operation is performed, the photographing device 47 inputs a two-dimensional code that is a subject.

The control unit 41 of the mobile phone 4 recognizes the pattern of the two-dimensional code input by the photographing device 47 (step S1) and performs a decoding process related to this pattern (step S2).
By performing this decoding process, the control unit 41 acquires the address of the elevator installation building to which the car 3a indicated by the two-dimensional code printed on the two-dimensional code seal 33 belongs and information on the elevator car. The control unit 41 transmits the acquired information to the center device 5 through the communication interface 43 together with the terminal number information of the mobile phone 4 stored in the storage unit 42 (step S3).

  Next, the processing operation by the center device 5 in the elevator monitoring system according to the first embodiment of the present invention will be described. FIG. 10 is a flowchart showing an example of the processing operation by the center device 5 in the elevator monitoring system according to the first embodiment of the present invention.

  The center device 5 receives the information transmitted from the mobile phone 4, that is, the information about the elevator corresponding to the location where the two-dimensional code seal 33 is pasted and the information of the terminal number of the mobile phone 4 of the transmission source by the communication interface 53 (step). A1).

The control unit 51 collates terminal number information, which is information received by the communication interface 53, with the personal information table (see FIG. 7) stored in the storage unit 52 (step A2).
And the control part 51 searches the work status matched with the information of the terminal number obtained by the process of step A1 among the work status managed by a personal information table (step A3).

The control unit 51 determines whether or not the searched work status is “working” as described above (step A4).
As a result of this determination, if the searched work status is not “working” as described above (NO in step A4), the control unit 51 possesses the mobile phone 4 that is the transmission source of the information received by the communication interface 53. Assuming that the maintenance and inspection work of the elevator corresponding to the location where the two-dimensional code 33 is input by the inspection worker is started, the work status retrieved as described above from the personal information table is rewritten to “working” (step A5). .

  And the control part 51 updates the information of the newest work location of the personal information table memorize | stored in the memory | storage part 52 (step A6). Specifically, the control unit 51 combines the building address associated with the terminal number obtained in the process of step A1 among the information on the latest work location managed in the personal information table stored in the storage unit 52 and the elevator number. Search for information. The control unit 51 updates the retrieved information to information on the combination of the building address and the elevator number obtained by the process of step A1.

  Further, the control unit 51 searches the personal information table for the terminal number, owner name, affiliation, telephone number, and elevator information associated with the work status rewritten in the process of step A5.

  The control unit 51 searches the work information table stored in the storage unit 52 for a table in which the building address information obtained by the process of step A1 is managed. For the building address and building name information managed in the retrieved table, the control unit 51 obtains the terminal number, owner name, affiliation, telephone number, and elevator information retrieved from the personal information table as described above. Newly associate.

  And the control part 51 discriminate | determines the number of the terminal numbers managed on the work information table which linked | related various information as mentioned above (step A7). This number is the number of workers who are performing maintenance and inspection work with single or plural elevators in the building corresponding to the building name managed on the work information table.

  As described above, the control unit 51 searches the building information table stored in the storage unit 52 for latitude and longitude information associated with the building address information managed on the work information table in which various types of information are associated.

FIG. 11 is a diagram showing an example of a display screen displayed on the display unit 56 of the center device 5 in the elevator monitoring system according to the first embodiment of the present invention.
As described above, the control unit 51 reads out the map information of the location corresponding to the latitude and longitude retrieved from the building information table and the surrounding area from the storage unit 52 and displays the map information on the display unit 56. A symbol indicating the number of workers who are performing inspection work in the building that is the transmission source of the information obtained in the process of step A1 is displayed at the location corresponding to the latitude and longitude retrieved from the building information table on this map. (Step A8).

  Specifically, when the number of workers determined by the process of step A7 is three, the control unit 51 indicates the number of inspection workers by a circle 61 including “3” as shown in FIG. It is displayed on the display unit 56 as a symbol.

  Further, as described above, the control unit 51 reads out the building name information managed in the work information table in which various types of information are associated, and displays the building name information in a circle displayed on the display unit 56.

  In addition, symbols 62, 63, and 64 indicating the number of workers of single or plural elevators in other buildings are also displayed on the map displayed on the display unit 56. The information indicating the building name of the transmission source is displayed side by side on these symbols.

  In this state, when the operator of the center device 5 selects one of the symbols displayed on the display unit 56 using the input unit 55, the control unit 51 displays the latitude and longitude of the installation location of the building corresponding to the selected symbol. Recognize

  The control unit 51 searches the building information table stored in the storage unit 52 for a building address associated with the latitude / longitude information. The control unit 51 searches the storage unit 52 for a work information table in which the searched building address information is managed, and displays it on the display unit 56 in a table format as shown in FIG. Thereby, the operator of the center apparatus 5 can easily grasp the information of the worker who is performing the inspection work with the elevators at the respective locations on the map.

  When the telephone number managed in the displayed table is selected using the input unit 55, the control unit 51 communicates with the cellular phone corresponding to the selected telephone number via a circuit relating to a voice call (not shown). Perform processing. Thereby, the operator of the center apparatus 5 can request the worker who is working to move to another elevator installation building by voice or text.

Thereafter, the worker starts the above-described elevator maintenance and inspection work, and after the completion of this work, the two-dimensional code printed on the above-described two-dimensional code seal 33 is input again using the mobile phone 4 and decoded. The information and the terminal number information are transmitted to the center device 5.
The center device 5 searches the personal information table stored in the storage unit 52 for the work status associated with the terminal number indicated by the information from the mobile phone 4.

  Then, the control unit 51 determines whether or not the searched work status is “working”. In this case, since the work status is “working” (YES in step A4), the control unit 51 regards that the worker has finished the maintenance and inspection work of the corresponding elevator, and the work status searched as described above is “working”. "Outside" is rewritten (step A9).

  And the control part 51 searches the table in which the building address shown by the information from the mobile telephone 4 is managed among the work information tables memorize | stored in the memory | storage part 52. FIG. The control unit 51 deletes information on the terminal number received from the mobile phone 4 and the name, affiliation, telephone number, and elevator information associated with the terminal number received from the mobile phone 4 from the information managed in the searched table. (Step A10).

Then, as described above, the control unit 51 determines the number of terminal numbers managed on the work information table from which various information has been deleted (step A11).
As described above, the control unit 51 searches the building information table stored in the storage unit 52 for the latitude and longitude information associated with the building address information managed on the work information table from which various information has been deleted.

  The control unit 51 reads out the map information of the location corresponding to the latitude and longitude retrieved from the building information table and its surroundings from the storage unit 52 and displays the map information on the display unit 56. A symbol indicating the number of workers who are performing inspection work in the building that is the transmission source of the information obtained in the process of step A1 is displayed at the location corresponding to the latitude and longitude retrieved from the building information table on this map. . (Step A12).

  As described above, in the first embodiment of the present invention, the mobile phone 4 carried by the worker of the elevator to be inspected / maintained is installed at the installation location of the elevator before the start of the maintenance / inspection work of the elevator to be inspected / maintained The two-dimensional code printed on the affixed two-dimensional code seal 33 is read, and the elevator installation building address and elevator information are transmitted to the center device 5. Based on the information from the mobile phone 4 and the personal information table, the center device 5 determines the number of workers who are performing maintenance and inspection work on the elevator installed in the transmission source building. The center device 5 corresponds to the location corresponding to the pasting location of the two-dimensional code seal 33 input by the mobile phone 4 and the latitude and longitude of the location of the receiving building in the surrounding map. To display. For this reason, the operator of the center apparatus 5 can easily grasp the number of workers who are performing maintenance and inspection work in each elevator installation building.

  Further, the center device 5 can monitor and display the personal information of the inspection worker who is working at the elevator installation location corresponding to the display location. When the operator of the center device 5 dispatches a worker to the building where the elevator is installed due to a sudden failure of the elevator, etc., the operator of the center device 5 should contact one of a plurality of workers located near the geographical location. Thus, it is possible to instruct movement to the elevator installation location.

(Second Embodiment)
Next, a second embodiment of the present invention will be described. In addition, description of the part same as the part demonstrated in 1st Embodiment among the structures of the elevator which concerns on this embodiment is abbreviate | omitted.
FIG. 12 is a diagram showing a configuration example of a remote monitoring system according to the second embodiment of the present invention.
Unlike the configuration shown in FIG. 2, this remote monitoring system does not require a two-dimensional code.

  The mobile phone 6 is a mobile communication terminal device carried by an elevator worker during maintenance and inspection work, and has a function of receiving radio waves from a GPS communication satellite (not shown). The mobile phone 6 detects the current position of the mobile phone 6 based on the received radio wave, and transmits information on this position to the center device 5 wirelessly.

Based on the information transmitted from the mobile phone 6, the center device 5 displays information indicating the number of workers together with the map information on a monitor.
FIG. 13 is a block diagram showing a configuration example of an internal circuit of the mobile phone 6 in the elevator monitoring system according to the second embodiment of the present invention. The description of the circuit configuration related to the voice call of the mobile phone 6 is omitted.

  Similar to the mobile phone 4 shown in FIG. 4, the mobile phone 6 shown in FIG. 13 includes a control unit 41, a storage unit 42, a communication interface 43, an antenna 44, an input unit 45, and a display unit 46. In addition, the mobile phone 6 includes a GPS receiver 48 instead of the photographing device 47 provided in the mobile phone 4. The GPS receiving unit 48 is connected to the antenna 44 and the control unit 41, receives a radio wave transmitted from a GPS satellite via the antenna 44, and detects the current position of the mobile phone 6. This current position is represented by latitude and longitude.

The control unit 41 transmits the current position information to the center device 5 via the communication interface 43.
The configuration of the internal circuit of the center device 5 in the elevator monitoring system according to the second embodiment of the present invention is the same as the configuration shown in FIG. The communication interface 53 of the center device 5 performs wireless communication with the mobile phone 6.
The storage unit 52 of the center device 5 stores a building information table having a format as shown in FIG. 6 in the same manner as the storage unit 52 of the center device 5 according to the first embodiment.

FIG. 14 is a diagram showing an example of the personal information table stored in the storage unit 52 of the center apparatus 5 in the elevator monitoring system according to the second embodiment of the present invention in a table format.
The storage unit 52 of the center device 5 further stores a personal information table of the format shown in FIG. 14 instead of the personal information table of the format shown in FIG. The format of this personal information table is substantially the same as the format shown in FIG. 7, but the information on the latest position is managed instead of the building address and elevator which are the latest work locations. The latest position information is represented by latitude and longitude, and is the latest current position information transmitted from the mobile phone 6 corresponding to the terminal number managed on the personal information table.

FIG. 15 is a diagram showing an example of a work information table stored in the storage unit 52 of the center device 5 in the elevator monitoring system according to the second embodiment of the present invention in a table format.
The storage unit 52 of the center device 5 further stores a work information table of the format shown in FIG. 15 independently for each building instead of the work information table of the format shown in FIG. The format of this work information table is almost the same as the format shown in FIG. 8, but the information on the elevator car is not managed.

Next, the processing operation by the mobile phone 6 in the elevator monitoring system according to the second embodiment of the present invention will be described.
First, the worker carries the mobile phone 6 that he / she owns and goes to the building where the elevator for maintenance inspection is installed. Here, it is assumed that the elevator car subject to maintenance inspection is the first elevator car 3a (see FIG. 1) that moves up and down the first elevator hoistway 2a of the building 1.

  By operating the input unit 45 of the mobile phone 6 according to a predetermined procedure before the worker performs maintenance and inspection work for the elevator, the operation mode of the mobile phone 6 is switched to the current position detection mode.

  When a predetermined operation is performed on the input unit 45 when the operation mode of the mobile phone 6 is the current position detection mode, the GPS receiving unit 48 receives radio waves from the GPS satellites via the antenna 44 and receives the mobile phone 6. The latitude / longitude of the current position is detected, and information on the latitude / longitude is output to the control unit 41.

  The control unit 41 transmits the latitude / longitude information input from the GPS reception unit 48 to the center device 5 through the communication interface 43 together with the terminal number information of the mobile phone 6 stored in the storage unit 42.

  Next, the processing operation by the center device 5 in the elevator monitoring system according to the second embodiment of the present invention will be described. FIG. 16 is a flowchart showing an example of the processing operation by the center device 5 in the elevator monitoring system according to the second embodiment of the present invention.

  The center device 5 receives the information transmitted from the mobile phone 6, that is, the latitude / longitude information of the current position of the mobile phone 6 and the terminal number information of the mobile phone 6 through the communication interface 53 (step B1).

The control unit 51 collates the terminal number information, which is information received by the communication interface 53, with the personal information table (see FIG. 14) stored in the storage unit 52 (step B2).
And the control part 51 searches the work status matched with the information of the terminal number obtained by the process of step B1 among the work status managed by a personal information table (step B3).

The control unit 51 determines whether or not the searched work status is “working” as described above (step B4).
As a result of this determination, if the searched work status is not “working” as described above (NO in step B4), the control unit 51 is the owner of the mobile phone 6 that is the transmission source of the information received by the communication interface 53. And the work status retrieved as described above from the personal information table is rewritten as “working” (step B5).

  And the control part 51 updates the information of the newest position of the personal information table memorize | stored in the memory | storage part 52 (step B6). Specifically, the control unit 51 searches for information on the latitude and longitude associated with the terminal number obtained in the process of step B1 from the information on the latest position managed in the personal information table stored in the storage unit 52. The control unit 51 updates the searched information to the latitude and longitude information obtained by the process of step B1.

And the control part 51 is contained in the range (for example, the range of several meters to several tens of meters) predetermined from the position corresponded to the latitude longitude acquired by the process of step B1 among the information managed by a building information table. Search for latitude and longitude information.
The control unit 51 searches the building information table for information on the building address associated with the searched latitude / longitude information.

  The control unit 51 searches the personal information table stored in the storage unit 52 for information on the terminal number, owner name, affiliation, and telephone number associated with the work status rewritten in the process of step B5.

  Moreover, the control part 51 searches the table in which the information of the building address searched from the building information table is managed among the work information tables memorize | stored in the memory | storage part 52 as mentioned above. As described above, the control unit 51 uses the terminal number, owner name, affiliation, and telephone number retrieved from the personal information table for the building address and building name information managed in the retrieved table. Associate new information.

And the control part 51 discriminate | determines the number of the terminal numbers managed on the work information table which linked | related various information as mentioned above (step B7).
As described above, the control unit 51 searches the building information table stored in the storage unit 52 for latitude and longitude information associated with the building address information managed on the work information table in which various types of information are associated.

  Thus, the control part 51 reads the map information of the location corresponding to the latitude longitude searched from the building information table, and its periphery from the memory | storage part 52, and displays this on the display part 56 (step B8). A symbol indicating the number of inspection workers who are inspecting the building that is the transmission source of the information obtained in step B1 is displayed at the location corresponding to the latitude and longitude retrieved from the building information table on this map. The Similarly to the system according to the first embodiment, the information indicating the building name of the transmission source is displayed side by side on the symbol indicating the number of persons.

  In this state, when the operator of the center device 5 selects one of the symbols displayed on the display unit 56 using the input unit 55, the control unit 51 displays the latitude and longitude of the installation location of the building corresponding to the selected symbol. Recognize

  The control unit 51 searches the building information table stored in the storage unit 52 for a building address associated with the latitude / longitude information. The control unit 51 searches the storage unit 52 for a work information table in which the searched building address information is managed, and displays it on the display unit 56 in a table format as shown in FIG.

  Thereafter, the inspection worker starts the maintenance and inspection work for the elevator described above, and after the operation is completed, if the operation mode of the mobile phone 6 is not the current position detection mode, a predetermined operation on the input unit 45 is performed. The operation mode of the mobile phone 6 is switched to the current position detection mode.

  When the operation mode of the mobile phone 6 is the current position detection mode, when a predetermined operation is performed on the input unit 45, the GPS receiving unit 48 receives radio waves from the GPS satellites via the antenna 44, and the mobile phone 6 The latitude / longitude of the current position is detected, and information on the latitude / longitude is output to the control unit 41.

  The control unit 41 transmits the latitude / longitude information input from the GPS reception unit 48 to the center device 5 through the communication interface 43 together with the terminal number information of the mobile phone 6 stored in the storage unit 42.

The center device 5 searches the personal information table for the work status associated with the terminal number indicated by the information from the mobile phone 6.
Then, the control unit 51 determines whether or not the searched work status is “working”. In this case, since the work status is “work in progress” (YES in step B4), the control unit 51 has an inspection worker who is the owner of the mobile phone 6 that is the transmission source of the information received by the communication interface 53 as a nearby elevator. It is assumed that the maintenance and inspection work for the unit is finished, and the retrieved work status is rewritten to “out of work” (step B9).

  Then, the control unit 51 searches the building information table for latitude and longitude information included in a predetermined range from a position corresponding to the latitude and longitude indicated by the information from the mobile phone 6.

  The control unit 51 retrieves information on the building address associated with the retrieved latitude and longitude information in the building information table.

Moreover, the control part 51 searches the table in which the information of the building address searched from the building information table is managed among the work information tables memorize | stored in the memory | storage part 52 as mentioned above.
The control unit 51 deletes the information of the terminal number, the owner's name, the affiliation, and the telephone number received from the mobile phone 6 from the information managed in the searched table (step B10).

And the control part 51 discriminate | determines the number of the terminal numbers managed on the work information table which deleted various information as mentioned above (step B11).
And the control part 51 performs the process similar to the process of step A12 mentioned above (step B12).

  As described above, in the second embodiment of the present invention, the current position is determined by receiving the radio wave from the GPS satellite by the mobile phone 6 carried by the worker of the elevator subject to maintenance inspection, and this current position information. Is transmitted to the center device 5. Based on the information from the mobile phone 6 and the personal information table, the center device 5 discriminates the number of workers involved in the maintenance and inspection work of the elevator installed in the transmission source building. The center device 5 displays a symbol corresponding to the determination result together with the map information at a location corresponding to the latitude and longitude of the current position transmitted from the mobile phone 6. For this reason, the operator of the center apparatus 5 can easily grasp the number of inspection workers who are performing the maintenance inspection work in the respective elevator installation buildings.

  Note that the present invention is not limited to the above-described embodiments as they are, and can be embodied by modifying constituent elements without departing from the scope of the invention in the implementation stage. Further, various inventions can be formed by appropriately combining a plurality of constituent elements disclosed in the respective embodiments. For example, some components may be omitted from all the components shown in the embodiment. Furthermore, you may combine suitably the component covering different embodiment.

The figure which shows an example of the elevator of the maintenance inspection object according to the 1st Embodiment of this invention. The figure which shows the structural example of the remote monitoring system according to the 1st Embodiment of this invention. The figure which shows the specific example of the two-dimensional code printed on the two-dimensional code seal affixed on the elevator car of the maintenance inspection object according to the 1st Embodiment of this invention. The block diagram which shows the structural example of the internal circuit of the mobile telephone in the remote monitoring system according to the 1st Embodiment of this invention. The block diagram which shows the structural example of the internal circuit of the center apparatus in the remote monitoring system according to the 1st Embodiment of this invention. The figure which shows an example of the building information table memorize | stored in the memory | storage part of the center apparatus in the remote monitoring system according to the 1st Embodiment of this invention. The figure which shows an example of the personal information table memorize | stored in the memory | storage part of the center apparatus in the remote monitoring system according to the 1st Embodiment of this invention. The figure which shows an example of the work information table memorize | stored in the memory | storage part of the center apparatus in the remote monitoring system according to the 1st Embodiment of this invention. The flowchart which shows an example of the processing operation by the mobile telephone in the remote monitoring system according to the 1st Embodiment of this invention. The flowchart which shows an example of the processing operation by the center apparatus in the remote monitoring system according to the first embodiment of the present invention. The figure which shows an example of the display screen displayed on the display part of the center apparatus in the remote monitoring system according to the 1st Embodiment of this invention. The figure which shows the structural example of the remote monitoring system according to the 2nd Embodiment of this invention. The block diagram which shows the structural example of the internal circuit of the mobile telephone in the remote monitoring system according to the 2nd Embodiment of this invention. The figure which shows an example of the personal information table memorize | stored in the memory | storage part of the center apparatus in the remote monitoring system according to the 2nd Embodiment of this invention. The figure which shows an example of the work information table memorize | stored in the memory | storage part of the center apparatus in the remote monitoring system according to the 2nd Embodiment of this invention. The flowchart which shows an example of the processing operation by the center apparatus in the remote monitoring system according to the 2nd Embodiment of this invention.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 ... Elevator installation building, 2a ... Unit 1 elevator hoistway, 2b ... Unit 2 elevator hoistway, 2c ... Unit 3 elevator hoistway, 3a ... Unit 1 elevator car, 3b ... Unit 2 elevator car, 3c ... Unit 3 Elevator car, 31 ... car door, 32 ... in-car operation panel, 4, 6 ... mobile phone (mobile communication terminal), 5 ... center device, 41, 51 ... control unit, 42, 52 ... storage unit, 43, 53 Communication interface 44, 54 Antenna 45, 55 Input unit 46, 56 Display unit 47 Imaging device 48 GPS receiver

Claims (6)

A system having a plurality of portable communication terminal devices and a remote monitoring device,
The mobile communication terminal device
Reading means for reading a two-dimensional code including information for identifying the installation location provided in the installation location of the monitoring target;
Decoding means for decoding the two-dimensional code read by the reading means;
Transmission means for transmitting information obtained by decoding by this decoding means,
The remote monitoring device is
Map information storage means for storing map information;
Receiving means for receiving information transmitted by the transmitting means of the mobile communication terminal device;
A discriminating unit for discriminating the number of mobile communication terminal devices that are the transmission source of information that identifies the same installation location among the information received by the receiving unit;
Display control means for controlling the display means to display information specifying the installation location received by the receiving means and the number of pieces of information determined by the determining means together with the map information stored in the map information storage means; A remote monitoring system characterized by comprising. Map information storage means for storing map information;
A receiving means for receiving information for identifying a location to be monitored;
A discriminating unit for discriminating the number of mobile communication terminal devices that are the transmission source of information that identifies the same installation location among the information received by the receiving unit;
Display control means for controlling the display means to display information specifying the installation location received by the receiving means and the number of pieces of information determined by the determining means together with the map information stored in the map information storage means; A remote monitoring device characterized by comprising. The receiving means can further receive identification information unique to the mobile communication terminal device;
Management information storage means for storing the identification information received by the receiving means and information for specifying the installation location in association with each other,
The said discrimination | determination means discriminate | determines the number of the said identification information matched with the information which specifies the said same installation location among the identification information memorize | stored in the said management information storage means. Remote monitoring device. A system having a plurality of portable communication terminal devices and a remote monitoring device,
The mobile communication terminal device
Position detection means for detecting the current position;
Transmission means for transmitting the current position information detected by the position detection means,
The remote monitoring device is
Map information storage means for storing map information;
Receiving means for receiving information transmitted by the transmitting means of the mobile communication terminal device;
Position information storage means for storing information for specifying the position of the monitoring target;
Discriminating means for discriminating the number of the mobile communication terminal devices as the transmission source of the current position information received by the receiving means within a predetermined range from the position to be monitored indicated by the information stored in the position information storage means When,
Display control means for controlling the display means to display information on the position of the monitoring target and the number of pieces of information determined by the determination means within the predetermined range together with the map information stored in the map information storage means And a remote monitoring system. Map information storage means for storing map information;
Receiving means for receiving current position information detected at the installation location of the monitoring target;
Position information storage means for storing information for specifying the position of the installation location to be monitored;
Discriminating means for discriminating the number of the mobile communication terminal devices as the transmission source of the current position information received by the receiving means within a predetermined range from the position to be monitored indicated by the information stored in the position information storage means When,
Display control means for controlling the display means to display information on the position of the monitoring target and the number of pieces of information determined by the determination means within the predetermined range together with the map information stored in the map information storage means And a remote monitoring device. The receiving means can further receive identification information unique to the mobile communication terminal device;
Management information storage means for storing the identification information received by the receiving means and the current position information in association with each other,
6. The determination unit according to claim 5, wherein the determination unit determines the number of pieces of identification information associated with the current position information within the predetermined range among the identification information stored in the management information storage unit. Remote monitoring device.

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