JP2007114877A - System and method for managing motion status of maintenance person and monitor center device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To quickly facilitate countermeasures to an inquiry from a customer in a monitor center. <P>SOLUTION: A maintenance person who patrols the installation positions of a plurality of maintenance object equipment for performing a maintenance operation carries an information transmitter 4. Then, a monitor center device 6 changes a schedule table in which the operation schedule of the maintenance person is registered based on a signal from the information transmitter 4. The monitor center 6 displays the current operation schedule of the maintenance person registered in the schedule table. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a maintenance worker movement management system and method, and a monitoring center device for managing maintenance work of a maintenance worker when the maintenance worker visits the installation position of each maintenance target device and performs the maintenance work.

  For example, a maintenance worker who performs maintenance and inspection of elevators generally visits and installs elevators of a plurality of customers a day to perform maintenance and inspection work.

  This maintenance / inspection work is usually scheduled in advance, and is managed so as to move at regular time intervals on the maintenance circuit.

  In this way, when the maintenance staff patrols a plurality of sites, it is rare to proceed according to the originally scheduled maintenance work schedule. Therefore, each customer is concerned about when the maintenance staff visits for maintenance, and often makes inquiries to the monitoring center that manages the maintenance work of the maintenance staff.

  However, in the monitoring center that receives such an inquiry, it is necessary to call the mobile phone held by the maintenance staff and check with the maintenance staff each time, which is very troublesome. In addition, when the maintenance staff is in the middle of maintenance inspection, it is impossible to reply.

  The present invention has been made in view of the above points, and an object of the present invention is to provide a maintenance staff movement management system and method and a monitoring center apparatus capable of quickly responding to an inquiry from a customer in a monitoring center.

One aspect of the maintenance staff movement management system of the present invention,
A schedule registration unit in which work schedules of maintenance personnel who perform maintenance work by visiting the installation positions of a plurality of maintenance target devices are registered;
A schedule change unit for changing the work schedule in the schedule registration unit based on a signal from an information transmitter possessed by the maintenance staff;
A display unit for displaying the current work schedule of the maintenance staff registered in the schedule registration unit;
It is characterized by comprising.

Also, one aspect of the monitoring center apparatus of the present invention is
In the monitoring center device that receives a signal from the information transmitter owned by each maintenance staff and manages the maintenance work of the maintenance staff when the maintenance staff visits the installation location of each maintenance target device and performs maintenance work. ,
A schedule registration unit in which the work schedule of each maintenance staff is registered in advance;
A schedule change unit for changing a work schedule in the schedule registration unit based on a signal from the information transmitter;
A display unit for displaying the current work schedule of the maintenance staff registered in the schedule registration unit;
It is characterized by comprising.

One aspect of the maintenance staff movement management method of the present invention,
Register the work schedule of maintenance personnel who perform maintenance work by visiting the installation positions of multiple maintenance target devices.
Change the registered work schedule based on the signal from the information transmitter owned by the maintenance staff,
Display the current work schedule of the registered maintenance personnel,
It is characterized by that.

  ADVANTAGE OF THE INVENTION According to this invention, the maintenance center's movement management system and method which can respond quickly to the inquiry from a customer in a monitoring center, and a monitoring center apparatus can be provided.

  The best mode for carrying out the present invention will be described below with reference to the drawings.

  FIG. 1 is a diagram showing a configuration of a maintenance staff movement management system that performs maintenance inspection work for elevators as an embodiment of the maintenance staff movement management system of the present invention.

  In the building 1, three elevators 2a, 2b, 2c are installed as elevators. Here, the elevator 2a will be described as a representative. A QR code (registered trademark) as a two-dimensional code 3 as shown in FIG. 2 is pasted in the vicinity of an operation panel in the elevator car. The two-dimensional code 3 is created, for example, in a state in which information on the building address, company name (or building owner name), and elevator number is included in advance. This two-dimensional code 3 has already been attached to this position at the time of elevator installation or past maintenance inspection.

  A maintenance staff visits the site with an information transmitter (for example, a portable information terminal such as a mobile phone) 4 having a communication function, an image photographing function, and a function for decoding a two-dimensional code photographed by the image photographing function. Head over and perform maintenance.

  The monitoring center 5 includes a monitoring center device 6 as a monitoring center device according to an embodiment of the present invention for constantly monitoring the elevators 2a, 2b, and 2c using a public line or the like. Instruction is given. In addition, a contact from the maintenance staff is received through the monitoring center device 6 and also communicated with each other to give an appropriate instruction. The monitoring center device 6 includes a computer that performs a predetermined program operation, and includes a storage device, a display, an input terminal, and the like.

  The storage device stores a maintenance person table 61 as shown in FIG. 3 and a work table 62 for each maintenance person as shown in FIG.

  Here, in the maintenance staff table 61, the management number (terminal number) of the information transmitter 4 possessed by each maintenance staff, the maintenance staff ID unique to each maintenance staff, the name of the maintenance staff, the maintenance staff's affiliation (sales office) This is a table in which each piece of information is registered in association with each other.

  In addition, the work table 62 for each maintenance staff includes the maintenance staff ID of the maintenance staff, the address of the building where each maintenance management target that the maintenance staff circulates in one day, the elevator number to be installed, and the work start time This is a table in which each information of work end time and work status is registered in association with each other. The work status is information indicating whether the elevator of the relevant unit is “before work”, “in work”, or “after work” for maintenance / inspection. Although the work table 62 is created at the beginning of the day, the creation procedure is not the gist of the present invention, and the description thereof is omitted.

  Next, the operation of the maintenance staff movement management system according to the present embodiment will be described with reference to a flowchart.

  FIG. 5 is a diagram showing an operation flowchart of the information transmitter 4 possessed by the maintenance staff. FIG. 6 shows a reception process corresponding to the signal reception from the information transmitter 4 in the monitoring center device 6 of the monitoring center 5. It is a figure which shows an operation | movement flowchart.

  That is, before starting the patrol, each maintenance worker goes to the sales office and reads the two-dimensional code provided there by the information transmitter 4 possessed by the maintenance staff (step S41). That is, a two-dimensional code is photographed. In response to this, the information transmitter 4 decodes the photographed two-dimensional code and transmits the obtained information to the monitoring center device 6 of the monitoring center 5 together with a management number for identifying the information transmitter 4. .

  When the monitoring center device 6 receives a signal from any of the information transmitters 4, it first determines whether the information transmitter 4, that is, the maintenance staff, is at the sales office or the work site (step S61). This is based on information obtained by decoding the above two-dimensional code included in the received signal, whether the two-dimensional code is provided at the sales office, or near the operation panel in the elevator car to be maintained at the work site. This can be done by discriminating whether the material is pasted. When the maintenance staff is at the sales office, the maintenance staff is identified based on the management number of the information transmitter 4 included in the received signal by the maintenance staff table (step S62). After the contents of the work table 62 corresponding to is transmitted to the sender information transmitter 4 (step S63), this reception process is terminated.

  The information transmitter 4 receives and displays the contents of the work table 62 (step S42), and the maintenance staff sees it and goes to the assigned first site.

  Then, when arriving at the site, the maintenance staff reads the two-dimensional code 3 attached to the vicinity of the operation panel in the elevator car to be maintained by the information transmitter 4 (step S43). That is, the two-dimensional code 3 is photographed. In response to this, the information transmitter 4 decodes the photographed two-dimensional code and transmits the obtained information to the monitoring center device 6 of the monitoring center 5 together with a management number for identifying the information transmitter 4. .

  As described above, when the monitoring center device 6 receives a signal from any of the information transmitters 4, it determines whether the information transmitter 4, that is, the maintenance staff, is at the sales office or at the work site (step). S61). When it is determined that the maintenance staff is at the work site, the maintenance staff is identified based on the management number of the information transmitter 4 included in the received signal by the maintenance staff table (step S64). Then, based on the information on the building address, company name (or building owner name), and elevator unit included in the information obtained by decoding the above two-dimensional code included in the received signal, the specified maintenance staff is handled. The work status for the work site is read from the work table 62 to be checked, and it is determined whether or not the work status is “before work” for maintenance and inspection (step S65). If the work status is “before work” for maintenance inspection, the difference between the start time and the current time for the work site is calculated from the work table 62 corresponding to the identified maintenance staff (step S66). Then, according to the calculated difference, the work table 62 corresponding to the identified maintenance staff is updated (step S67). That is, the end time for the work site is updated based on the calculated difference, and the start time and end time for each remaining work site are updated. In addition, the start time for the work site is updated to the current time, and the work status is updated to “work in progress” for maintenance and inspection. After that, the updated contents of the work table 62 are transmitted to the information transmitter 4 as the transmission source (step S68), and this reception process is terminated.

  The information transmitter 4 receives and displays the contents of the work table 62 (step S44). In this way, the work schedule can be changed when the arrival at the site is delayed due to traffic jams or the like.

  Thereafter, it is determined whether or not a predetermined end operation has been performed (step S45). If no such operation has been performed, the process returns to step S43. In other words, the maintenance staff carries out the actual maintenance and inspection work, and when the work is completed, again, the two-dimensional code 3 attached to the vicinity of the operation panel in the elevator car that is the maintenance work is used as the information transmitter. 4 is read (step S43). That is, the two-dimensional code 3 is photographed. In response to this, the information transmitter 4 decodes the photographed two-dimensional code and transmits the obtained information to the monitoring center device 6 of the monitoring center 5 together with a management number for identifying the information transmitter 4. .

  As described above, when the monitoring center device 6 receives a signal from any of the information transmitters 4, it determines whether the information transmitter 4, that is, the maintenance staff, is at the sales office or at the work site (step). S61). When it is determined that the maintenance staff is at the work site, the maintenance staff is identified based on the management number of the information transmitter 4 included in the received signal by the maintenance staff table (step S64). Then, based on the information on the building address, company name (or building owner name), and elevator unit included in the information obtained by decoding the above two-dimensional code included in the received signal, the specified maintenance staff is handled. The work status for the work site is read from the work table 62 to be checked, and it is determined whether or not the work status is “before work” for maintenance and inspection (step S65). When the second two-dimensional code 3 is read for the second time, the work status is “working” for maintenance inspection. Therefore, in this case, the difference between the end time and the current time for the work site is calculated from the work table 62 corresponding to the identified maintenance staff (step S69). Then, according to the calculated difference, the work table 62 corresponding to the identified maintenance staff is updated (step S67). That is, in this case, the start time and end time for each remaining work site are updated based on the calculated difference. In addition, the end time for the work site is updated to the current time, and the work status is updated to “after work” in the maintenance inspection. After that, the updated contents of the work table 62 are transmitted to the information transmitter 4 as the transmission source (step S68), and this reception process is terminated.

  The information transmitter 4 receives and displays the contents of the work table 62 (step S44). In this way, the work schedule can be changed when the work is completed earlier than the schedule, or conversely, when the scheduled end time has passed due to troublesome work.

  Thereafter, it is determined whether or not a predetermined end operation has been performed (step S45). If no such operation has been performed, the process returns to step S43. That is, the maintenance staff looks at the work schedule of the displayed update number, and if the next site is still assigned, the maintenance staff goes to the assigned next site. Then, after arriving at the site, the operation from step S43 is repeated.

  The maintenance and inspection work at the site is repeated in this way, and when all work is completed, the maintenance staff performs the predetermined operation, and the information transmitter 4 determines that the predetermined end operation has been performed (step S45), the process is terminated.

  FIG. 7 is an operation flowchart of the estimated arrival time search process in response to the inquiry from the customer in the monitoring center device 6 of the monitoring center 5.

  That is, when there is an inquiry about the estimated arrival time from the customer, the operator of the monitoring center 5 operates the input device of the monitoring center device 6 and inputs the address of the site to be searched (step S601). The monitoring center device 6 searches each maintenance staff's work table 62 using the input address as a search key (step S602), and displays the work table 62 including the corresponding address on the display (step S63). The operator looks at it and informs the customer who made the inquiry about the estimated arrival time.

  As described above, according to the present embodiment, the initially planned maintenance work and its schedule can be changed based on the actual work start time and work end time at the site, and thereafter It can be reflected in all on-site arrival times. As a result, the monitoring center 5 can quickly respond to inquiries from customers.

  As mentioned above, although this invention was demonstrated based on one Embodiment, this invention is not limited to embodiment mentioned above, Of course, a various deformation | transformation and application are possible within the range of the summary of this invention. is there.

  For example, the work schedule is updated twice at the start of the work and at the end of the work at each work site, but either one may be performed. In this case, it is preferable to update only at the end of the work that is likely to affect the subsequent schedule.

  Conversely, the work schedule may be updated during the work. This is, for example, let the maintenance staff carry a plate on which a correction code encoded with correction control information such as 10 minutes advanced, 10 minutes delayed, 20 minutes advanced, 20 minutes delayed,. The maintenance table 6 that has received the control information updates the work table 62 by reading the correction code corresponding to the desired correction time from the plate as needed during the maintenance and inspection work. You can do that.

  Of course, in the above-described embodiment, various types of information are transmitted to the monitoring center device 6 by reading the two-dimensional code. However, information necessary for maintenance personnel using the display unit and the input unit provided in the information transmitter 4 is used. May be input and transmitted to the monitoring center device 6.

  In addition, although the work table 62 is updated for all the sites before the end of the work, it can be changed for each site or the site work can be canceled (postponed) depending on circumstances.

  In the above-described embodiment, the description has been given of the maintenance inspection work of the elevator. However, the present invention is not limited to the elevator and can be applied to various maintenance inspection work. Moreover, although the elevator was illustrated as an elevator, even if it is an escalator etc., the same effect can be expected.

  Furthermore, the information transmitter 4 carried by the maintenance staff is not limited to a mobile phone, and any information can be used as long as it has a function of reading a two-dimensional code and transmitting a management number of the information transmitter.

  The photographed two-dimensional code is decoded by the information transmitter 4. However, the photographed two-dimensional code image may be transmitted as it is to the monitoring center apparatus 6 and decoded by the monitoring center apparatus 6 side. Absent.

  Furthermore, as described above, the two-dimensional code is not only a QR code (registered trademark) but also PDF417, Maxi Code, Data Matrix, Veri Code, Code 49, Code 1, Aztec Code, Super Code, RSS (registered trademark) Etc.) can be used.

FIG. 1 is a diagram showing a configuration of a maintenance staff movement management system that performs maintenance inspection work for elevators as an embodiment of the maintenance staff movement management system of the present invention. FIG. 2 is a diagram illustrating an example of a two-dimensional code. FIG. 3 is a diagram illustrating a configuration of the maintenance staff table stored in the storage device of the monitoring center device. FIG. 4 is a diagram illustrating a configuration of a work table for each maintenance person stored in the storage device of the monitoring center device. FIG. 5 is a diagram showing an operation flowchart of the information transmitter owned by the maintenance staff. FIG. 6 is a diagram showing an operation flowchart of reception processing in response to signal reception from the information transmitter in the monitoring center device. FIG. 7 is a diagram showing an operation flowchart of a scheduled arrival time search process in response to an inquiry from a customer in the monitoring center device.

Explanation of symbols

    DESCRIPTION OF SYMBOLS 1 ... Building, 2a, 2b, 2c ... Elevator, 3 ... Two-dimensional code, 4 ... Information transmitter, 5 ... Monitoring center, 6 ... Monitoring center apparatus, 61 ... Maintenance staff table, 62 ... Work table.

Claims (10)

A schedule registration unit in which work schedules of maintenance personnel who perform maintenance work by visiting the installation positions of a plurality of maintenance target devices are registered;
A schedule change unit for changing the work schedule in the schedule registration unit based on a signal from an information transmitter possessed by the maintenance staff;
A display unit for displaying the current work schedule of the maintenance staff registered in the schedule registration unit;
A maintenance staff movement management system characterized by comprising:   2. The maintenance management system according to claim 1, wherein the maintenance target device is an elevator. The information transmitter has a two-dimensional code reading function,
The signal from the information transmitter is generated in response to reading of a two-dimensional code set by the information transmitter at the installation position of the maintenance target device. Movement management system.   4. The maintenance staff movement management system according to claim 3, wherein reading of the two-dimensional code by the information transmitter is performed at least when the maintenance work of the maintenance target device is completed.   The maintenance staff according to claim 1, wherein the work schedule in the schedule registration unit changed by the schedule change unit based on reception of a signal from the information transmitter is transmitted to the information transmitter. Movement management system.   The maintenance management system according to claim 1, wherein the work schedule registered in the schedule registration unit is transmitted to the information transmitter in response to reception of a signal from the information transmitter.   The schedule change unit changes a work schedule in the schedule registration unit according to a signal from the information transmitter according to reading of a correction code in which control information for correction is encoded. The maintenance management system for maintenance personnel according to 3. In the monitoring center device that receives a signal from the information transmitter owned by each maintenance staff and manages the maintenance work of the maintenance staff when the maintenance staff visits the installation location of each maintenance target device and performs maintenance work. ,
A schedule registration unit in which the work schedule of each maintenance staff is registered in advance;
A schedule change unit for changing a work schedule in the schedule registration unit based on a signal from the information transmitter;
A display unit for displaying the current work schedule of the maintenance staff registered in the schedule registration unit;
The monitoring center apparatus characterized by comprising.   9. The monitoring center apparatus according to claim 8, wherein the maintenance target device is an elevator. Register the work schedule of maintenance personnel who perform maintenance work by visiting the installation positions of multiple maintenance target devices.
Change the registered work schedule based on the signal from the information transmitter owned by the maintenance staff,
Display the current work schedule of the registered maintenance personnel,
The maintenance management method characterized by the above.

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