JP2013242774A - Maintenance work schedule preparation device and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a maintenance work schedule preparation device capable of preparing a work schedule for efficiently making rounds of buildings and performing maintenance work of facility apparatuses.SOLUTION: An information acquisition section 50 receives object information for identifying respective ones of a plurality of buildings and acquires maintenance work information indicating contents of maintenance work performed in the respective ones of the plurality of buildings, weather forecast information indicating a weather forecast in an area including respective locations of the plurality of buildings and geographical conditions information indicating geographical conditions of the area including the respective locations of the plurality of buildings. A schedule preparation section 60 determines work dates when maintenance work is performed in the respective ones of the plurality of buildings and movement tools by which operators are moved to the respective ones of the plurality of buildings on the basis of the locations of the plurality of buildings, the contents of the maintenance work, the weather forecast and the geographical conditions.

Description

  The present invention relates to a maintenance work schedule creation device and a program for creating a maintenance work schedule for equipment installed in a building.

  Buildings such as buildings and condominiums are equipped with equipment such as elevators, escalators, security cameras, air conditioners, and lighting fixtures. Maintenance and inspections of equipment are regularly performed to prevent these equipment from malfunctioning. Has been done. Since specialized knowledge is required to perform maintenance and inspection work on equipment, the building owners and managers enter into maintenance contracts with maintenance companies that specialize in equipment and maintenance inspection work. May outsource maintenance and inspection work. A maintenance company assigns workers who perform maintenance inspection work to maintenance service bases and provides maintenance services such as inspection, repair, and maintenance of equipment. Then, in order for workers to visit the building regularly according to the maintenance contract, the maintenance company creates a work schedule that represents the work day for the maintenance work, the building to be maintained, and the content of the maintenance work. Maintenance services are provided according to a schedule. Creating this work schedule itself is a burden for the maintenance company, and know-how is required to create a work schedule for efficiently performing a maintenance work by patroling the building.

  As an apparatus for creating a work schedule, for example, the following Patent Document 1 discloses an apparatus that assigns maintenance work of equipment that requires specific qualifications to maintenance personnel in preference to maintenance work of other equipment. ing.

  Also, in Patent Document 2 below, a facility entry / exit history is acquired by an equipment inspection operator, and the work time and travel time required to inspect equipment are calculated from the history, and this is accumulated for the number of inspections. Thus, an apparatus for calculating the optimum work time based on the accumulated work time and travel time for each equipment device is disclosed.

  Further, in Patent Document 3 below, customer buildings that are not assigned workers and work dates in the maintenance patrol work table among the customer buildings and can be assigned to the already assigned customer buildings, Extraction is based on the information on the available work time and the work qualification of the worker calculated based on the work time of each customer building, the priority is determined for the extracted customer building, and based on the priority An apparatus for displaying a customer building is disclosed.

JP 2002-83101 A JP 2009-151733 A JP2011-258127A

  The inventions described in the above Patent Documents 1 to 3 are intended to create a work schedule with good work efficiency, but the ease of work at the work site, the ease of movement to the work site, etc. This is not taken into consideration, and a work schedule that can efficiently visit a building and perform maintenance work on equipment is not always created. The invention described in Patent Document 1 only gives priority to maintenance work of equipment that requires specific qualifications, and the invention described in Patent Document 2 describes a plurality of rooms in one building. Is merely creating a work schedule for performing maintenance work on the equipment installed in the facility, and the invention described in Patent Document 3 describes a customer building that has already been assigned to a maintenance patrol work table and a customer building that has not been assigned. The maintenance patrol work table is merely created based on the combination with the above. As described above, the inventions described in Patent Documents 1 to 3 do not take into consideration the ease of work at the work site, the ease of movement to the work site, and the like. It is not always created.

  An object of the present invention is to provide a maintenance work schedule creation apparatus and program capable of creating a work schedule for efficiently traveling around a building and performing maintenance work on equipment.

  The invention which concerns on Claim 1 receives the property information which identifies each of the some building in which the installation equipment used as the object of a maintenance work is installed, and shows the content of the maintenance work performed in each of these buildings Information acquisition for obtaining maintenance work information, weather forecast information indicating a weather forecast in a region including the respective locations of the plurality of buildings, and geographical condition information indicating a geographical condition of the region including the respective locations of the plurality of buildings The plurality of buildings based on means, the location of each of the plurality of buildings, the content of the maintenance work indicated by the maintenance work information, the weather forecast indicated by the weather forecast information and the geographical condition indicated by the geographical condition information A schedule for creating a work schedule indicating a work day for maintenance work and a moving tool for the worker to move to each of the plurality of buildings And creating means, a maintenance scheduling apparatus characterized by having a.

  The invention according to claim 2 is the maintenance work schedule creation device according to claim 1, wherein the maintenance work information includes work place information indicating whether or not the maintenance work is performed outdoors, The schedule creation means identifies a weather day based on the weather forecast information and preferentially assigns maintenance work performed outdoors on the weather day.

  The invention according to claim 3 is the maintenance work schedule creation device according to claim 1, wherein the property information includes parking lot information indicating the presence or absence of a parking lot in a building, and the schedule creation means includes the schedule creation means, A weather day is specified based on weather forecast information, and maintenance work performed in a building without a parking lot is preferentially assigned to the weather day.

  The invention according to claim 4 is the maintenance work schedule creation device according to claim 1, wherein the schedule creation means specifies a weather day based on the weather forecast information, and the geographical condition information Based on this, the movement distance of the worker to the building is obtained, and maintenance work performed in the building where the movement distance is equal to or greater than a predetermined distance is preferentially assigned on a weather day.

  Further, the invention according to claim 5 is the maintenance work schedule creation device according to claim 1, wherein the maintenance work information includes work place information indicating whether or not the maintenance work is performed outdoors and a building. Parking schedule information indicating the presence or absence of a parking lot, the schedule creation means specifies a weather day based on the weather forecast information, and the movement distance of the worker to the building based on the geographical condition information The maintenance work performed outdoors is assigned the highest priority on the weather day, the maintenance work performed on the building without a parking lot is assigned the second priority on the weather day, and the travel distance is equal to or greater than the predetermined distance. The maintenance work performed in the building to be assigned is assigned the day of the weather with the third highest priority.

  The invention according to claim 6 is the maintenance work schedule creation device according to any one of claims 1 to 5, wherein the maintenance work information includes work time information indicating a work time required for the maintenance work. The geographical condition information includes railway information indicating a railway operation plan in an area including the respective locations of the plurality of buildings, and map information indicating a map of an area including the respective locations of the plurality of buildings; Traffic information indicating the degree of past traffic congestion in an area including the respective locations of the plurality of buildings, and the schedule creation means includes the locations of the plurality of buildings and the railway operation indicated by the railroad information. Based on the plan, the map indicated by the map information, and the degree of past traffic congestion indicated by the congestion information, the movement time of the worker to the building is predicted, and the movement of the worker is determined. The worker moves to each of a combination of a plurality of maintenance operations in which the total of the maintenance time and a work time required for the maintenance operation is within a predetermined time and a plurality of buildings in which the plurality of maintenance operations included in the combination are performed The plurality of maintenance work included in the combination is assigned to the same work day.

  The invention according to claim 7 is the maintenance work schedule creation device according to claim 6, wherein the schedule creation means is configured such that a total of a movement time of the worker and a work time required for the maintenance work is within a predetermined time. And a moving tool for moving the worker to each of a combination of a plurality of maintenance operations that minimizes the movement time of the worker and a plurality of buildings in which the plurality of maintenance operations are included in the combination. And assigning the plurality of maintenance operations included in the combination to the same work day.

  The invention according to claim 8 is the maintenance work schedule creation device according to any one of claims 1 to 7, wherein the schedule creation means assigns the same maintenance work to the same work day. It is characterized by that.

  In the invention according to claim 9, the computer receives property information identifying each of the plurality of buildings where the equipment to be subjected to maintenance work is installed, and the maintenance performed in each of the plurality of buildings Maintenance work information indicating the work content, weather forecast information indicating the weather forecast in the area including the respective locations of the plurality of buildings, and geographical condition information indicating the geographical conditions of the area including the respective locations of the plurality of buildings Based on the location of each of the plurality of buildings, the content of the maintenance work indicated by the maintenance work information, the weather forecast indicated by the weather forecast information, and the geographical condition indicated by the geographical condition information A work schedule indicating a work day for performing maintenance work in each of the plurality of buildings and a moving tool for moving an operator to each of the plurality of buildings. Is a program for causing the execution and a second step of creating a Le, a.

  According to the present invention, by using the contents of the maintenance work, the weather forecast, and the geographical conditions, there is a work schedule that can efficiently visit the building and perform the maintenance work in consideration of the weather conditions and the moving tool. Created.

It is a block diagram which shows an example of the maintenance work schedule preparation apparatus which concerns on embodiment of this invention. It is a table | surface which shows an example of the correspondence of the content of maintenance work, work time, and a tool.

  FIG. 1 shows an example of a maintenance work schedule creation device according to an embodiment of the present invention. The maintenance work schedule creation device according to the present embodiment includes a user interface unit (UI unit) 10, a property information storage unit 20, a maintenance work information storage unit 30, a communication unit 40, an information acquisition unit 50, and a schedule creation. Part 60. The maintenance work schedule creation device according to the present embodiment creates a work schedule for performing maintenance work on equipment installed in a building such as a building or a condominium. For example, the maintenance work schedule creation device according to the present embodiment allows maintenance work to be performed when an operator moves from a maintenance service base of a maintenance company to a plurality of buildings (property) in which facility equipment to be subjected to maintenance work is installed. Create a work schedule to do Equipment equipment to be subjected to maintenance work is, for example, an elevator, an escalator, a security camera, an air conditioner, and a lighting fixture.

  The user interface unit (UI unit) 10 includes an input device and a display device (not shown). For example, by using an input device, the user can provide property information for identifying a building in which the equipment to be subjected to maintenance work is installed, maintenance work information indicating the content of the maintenance work, and the maintenance work. The work time information indicating the time required (work time) is input. For example, by using the input device, the user can use the input device to store each piece of property information, maintenance work information indicating the contents of maintenance work performed in each building, and work time information indicating the time required for each maintenance work. Enter. In some cases, one maintenance work is performed per building, and in other cases, a plurality of maintenance work is performed. Therefore, the user can perform one or more maintenance work performed in each building by using an input device. Maintenance work information indicating the contents and work time information of each maintenance work may be input. In the following, a building in which facility equipment to be subjected to maintenance work is installed is referred to as a “maintenance target building”. For example, the user uses the UI unit 10 to perform maintenance work time information indicating a time (for example, a month or a week) when maintenance work is performed, and information (property information, maintenance work information, and maintenance work information scheduled to be performed at the time). Work time information). For example, when a work schedule for the next month is created, maintenance work time information indicating the next month and information related to a maintenance work scheduled to be performed in the next month may be input.

  The property information includes, for example, name information indicating the name of the building and position information indicating the address (location) of the building, may further include parking information indicating the presence or absence of a parking lot in the building, and identifies the building For example, identification information such as an identification number may be further included, or device information for identifying equipment installed in the building may be further included. When the property information including the identification information is registered in the maintenance work schedule creation device in advance, the user may input the building identification information by using the UI unit 10.

  The maintenance work information may further include work place information indicating whether or not the maintenance work is performed outdoors, and may further include work time information indicating a work time required for the maintenance work. When building information and maintenance work information are associated with each other and registered in advance in the maintenance work schedule creation device, maintenance work information does not have to be input from the UI unit 10. When maintenance work information including work time information is registered in advance in the maintenance work schedule creation device, the work time information does not have to be input from the UI unit 10. The work time is a time estimated to be required for the maintenance work, and is determined based on experience, for example.

  The property information storage unit 20 stores property information of each building in advance. For example, the property information storage unit 20 includes name information indicating the name of the building, position information indicating the address (location) of the building, parking information indicating whether or not there is a parking lot, and identification information for identifying the building. The device information for identifying the facility device installed in the building is stored in advance in association with each other. Further, the property information storage unit 20 may store in advance maintenance work time information indicating the time of maintenance work scheduled to be performed in each building. For example, when the time of maintenance work is specified in advance, such as when performing maintenance work regularly, maintenance work time information indicating the time of maintenance work performed in each building is stored in the property information storage unit 20. May be stored in advance.

  The maintenance work information storage unit 30 stores maintenance work information indicating the contents of maintenance work in advance. For example, the maintenance work information storage unit 30 associates property information (and / or identification information) for specifying a building with maintenance work information indicating the content of the maintenance work performed in the building for each building. It may be stored in advance. In addition, the maintenance work information storage unit 30 may store the maintenance work information and the tool information indicating the tool used in the maintenance work in advance in association with each other.

  Here, with reference to FIG. 2, the content of maintenance work for every equipment, work time, and the tool used in the said maintenance work are demonstrated. FIG. 2 shows the contents of maintenance work performed by an elevator and an escalator as an example. For example, maintenance work for an elevator includes work such as cleaning, rope check, illumination replacement, and refueling. In addition, maintenance work for the escalator includes work such as step removal, handrail removal, refueling, and cleaning. In the table shown in FIG. 2, the contents of each maintenance work, the work time predicted by experience, and the tools used in the maintenance work are associated with each other. For example, the work time for cleaning the elevator is 1.0 hour (predicted work time), and a cleaner is used as a tool for the cleaning. The elevator rope check time is 2.0 hours, and a rope checker is used as a tool for the rope check. Moreover, the work time for the step removal of the escalator is 1.0 hour, and a step removal tool is used for step removal. Further, the work time for removing the handrail of the escalator is 1.0 hour, and a handrail removing tool is used for removing the handrail. Safety fences, blue sheets, and the like are examples of tools that are commonly used in a plurality of maintenance operations. As an example, the maintenance work information storage unit 30 associates the contents of the maintenance work for each equipment, the work time of each maintenance work, and the tool used in each maintenance work, as shown in the table of FIG. Information may be stored for each building.

  The communication unit 40 is connected to a communication path N such as a network such as a LAN or WAN, and communicates with an external device such as a server, and transmits and receives various types of information via the communication path N.

  The information acquisition unit 50 acquires information used for creating a work schedule. The information acquisition unit 50 includes a property information acquisition unit 51, a maintenance work information acquisition unit 52, a weather forecast information acquisition unit 53, a map information acquisition unit 54, a railway information acquisition unit 55, and a traffic jam information acquisition unit 56. I have.

  The property information acquisition unit 51 receives the property information input using the UI unit 10 and outputs the property information to the schedule creation unit 60. For example, when property information of a plurality of maintenance target buildings is input from the UI unit 10, the property information acquisition unit 51 outputs the property information of each maintenance target building to the schedule creation unit 60. Alternatively, when receiving the identification information from the UI unit 10, the property information acquisition unit 51 acquires the property information including the identification information from the property information storage unit 20, and outputs the acquired property information to the schedule creation unit 60. Also good.

  The maintenance work information acquisition unit 52 receives the maintenance work information input using the UI unit 10, and outputs the maintenance work information to the schedule creation unit 60. For example, when maintenance work information of a plurality of maintenance target buildings is input from the UI unit 10, the maintenance work information acquisition unit 52 outputs the maintenance work information of each maintenance target building to the schedule creation unit 60. Alternatively, when receiving the property information or identification information from the UI unit 10, the maintenance work information acquisition unit 52 acquires the property information or maintenance work information associated with the identification information from the maintenance work information storage unit 30. The acquired maintenance work information may be output to the schedule creation unit 60.

  The weather forecast information acquisition unit 53 acquires weather forecast information indicating the weather forecast in the area including the location of the maintenance target building, and outputs the acquired weather forecast information to the schedule creation unit 60. For example, the weather forecast information acquisition unit 53 acquires weather forecast information indicating a weather forecast in an area including the location of the maintenance service base, the location of the maintenance target building, and the route from the maintenance service base to the maintenance target building. Information indicating the location of the maintenance service base may be stored in advance in a storage unit such as the property information storage unit 20 or the maintenance work information storage unit 30. The weather forecast information acquisition unit 53 acquires weather forecast information in an area including the location of the building to be maintained from an external device such as a server via the communication unit 40 and the communication path N. For example, the weather forecast information acquisition part 53 acquires the weather forecast information which shows the weather forecast in the area containing each location of several maintenance object buildings. As an example, the weather forecast information acquisition part 53 acquires the weather forecast information which shows the weather forecast in the period (for example, month or week) which performs maintenance work.

  The map information acquisition unit 54 acquires map information indicating a map of the area including the location of the maintenance target building, and outputs the acquired map information to the schedule creation unit 60. For example, the map information acquisition unit 54 acquires map information indicating a map of an area including the location of the maintenance service base, the location of the maintenance target building, and the route from the maintenance service base to the maintenance target building. The map information may be stored in advance in the property information storage unit 20, or may be stored in an external device such as a server. When the map information is stored in advance in the property information storage unit 20, the map information acquisition unit 54 acquires the map information of the area including the location of the maintenance target building from the property information storage unit 20. When the map information is stored in the external device, the map information acquisition unit 54 acquires the map information of the area including the location of the maintenance target building from the external device via the communication unit 40 and the communication path N. For example, the map information acquisition unit 54 acquires map information indicating a map of an area including the locations of the plurality of maintenance target buildings.

  The railway information acquisition unit 55 acquires railway information related to the railway in the region including the location of the maintenance target building, and outputs the acquired railway information to the schedule creation unit 60. For example, the railroad information acquisition unit 55 acquires railroad information related to a railroad in an area including the location of the maintenance service base, the location of the maintenance target building, and the route from the maintenance service base to the maintenance target building. For example, the railway information acquisition unit 55 acquires railway information in an area including the location of the maintenance target building from an external device via the communication unit 40 and the communication path N. The railway information includes diagram information indicating a railway operation plan, a timetable of each station, and the like. For example, the railway information acquisition unit 55 acquires railway information related to railways in an area including the locations of the plurality of maintenance target buildings.

  The traffic jam information acquisition unit 56 acquires traffic jam information indicating the degree of past traffic jams in the area including the location of the maintenance target building, and outputs the acquired traffic jam information to the schedule creation unit 60. For example, the traffic jam information acquisition unit 56 acquires traffic jam information indicating the degree of past traffic jams in an area including the location of the maintenance service base, the location of the maintenance target building, and the route from the maintenance service base to the maintenance target building. To do. The traffic jam information may be stored in advance in the property information storage unit 20, or may be stored in an external device such as a server. When the traffic information is stored in the property information storage unit 20 in advance, the traffic information acquisition unit 56 acquires the traffic information of the area including the location of the maintenance target building from the property information storage unit 20. When the traffic information is stored in the external device, the traffic information acquisition unit 56 acquires the traffic information of the area including the location of the maintenance target building from the external device via the communication unit 40 and the communication path N. For example, the traffic jam information acquisition unit 56 acquires traffic jam information indicating the degree of past traffic jams in an area including the locations of the plurality of maintenance target buildings.

  Note that the railroad information, map information, and traffic jam information correspond to an example of geographical condition information indicating the geographical conditions in the region including the location of the maintenance target building.

  The schedule creation unit 60 is a weather forecast indicating property information of each maintenance target building, maintenance work information indicating the content of maintenance work performed in each maintenance target building, and a weather forecast in an area including the location of each maintenance target building. Based on the information and geographical condition information (railway information, map information and traffic jam information) in the area including the location of each maintenance target building, the work day for performing maintenance work in each building, and the worker in each building A moving tool to be moved is determined, and a work schedule indicating a correspondence relationship among the maintenance target building, the maintenance work content, the work date, and the moving tool is created. The schedule creation unit 60 may assign a plurality of maintenance work on the same work day. For example, the schedule creation unit 60 refers to the work time of each maintenance work, and allocates the number of maintenance work in which the total work time of a plurality of maintenance work is within one day of operation time (for example, 10 hours) to one day. Then, a moving tool for moving the worker to each maintenance target building is determined. The moving tool includes a moving means used when the worker moves to each building and a moving route for the operator to circulate a plurality of maintenance target buildings on which maintenance work is performed on the same work day. It is a concept that includes. For example, a railroad, a car, a bicycle, a walk, etc. correspond to a movement tool. Further, the movement route includes an order in which the operator patrols a plurality of maintenance target buildings. Further, the operating time of the day may be arbitrarily changed by the user.

  The schedule creation unit 60 creates a work schedule according to the following procedure. First, when the user inputs maintenance work information by using the UI unit 10, specifies a maintenance target building by inputting property information or identification information, and further specifies a work date and time, the schedule creation unit 60 The maintenance work performed in the target building is preferentially assigned to the designated work date and time.

  Next, the schedule creation unit 60 identifies a day (hereinafter, abbreviated as “weather day”) that is predicted to be the weather based on the weather forecast information, and performs maintenance work that requires outdoor work. Maintenance work performed in a building that is estimated to be difficult to visit and maintenance work performed in a building far from the maintenance service base or the nearest station are preferentially assigned on a weather day. For example, when equipment that is subject to maintenance work is installed outdoors, such as outdoor escalators, it is necessary for workers to perform maintenance work outdoors, which makes maintenance work difficult on rainy days. It is done. Accordingly, maintenance work requiring outdoor work is preferentially assigned on a weather day. In addition, when performing maintenance work in a building that does not have a parking lot, it is assumed that it is difficult to visit the building by automobile, and the building is visited by means of transportation other than the automobile (for example, bicycle, walking or railroad). There is a need. For example, it is difficult for an operator to move in the rain with a tool in the rain by means of transportation other than an automobile (for example, bicycle or walking). It becomes difficult to go around the building. Accordingly, the maintenance work performed in the maintenance target building that is estimated to be difficult to visit by car is preferentially assigned on a weather day. In addition, when moving to a building far from the maintenance service base or the nearest station on a rainy day, the time required for the movement becomes longer, and it becomes difficult to efficiently visit a plurality of maintenance target buildings. Therefore, maintenance work performed in a building far from the maintenance service base or the nearest station is preferentially assigned on a weather day.

  For example, the schedule creation unit 60 identifies maintenance work performed outdoors based on the work location information included in the work content information, and preferentially assigns maintenance work performed outdoors on a weather day. Further, the schedule creation unit 60 identifies a maintenance target building without a parking lot based on the parking lot information included in the property information, and prioritizes maintenance work performed in the maintenance target building without a parking lot on a weather day. To assign. Further, the schedule creation unit 60 obtains a distance from the maintenance service base or the nearest station to each maintenance target building (a distance corresponding to the movement distance of the worker) based on the location information and map information of each maintenance target building. The maintenance work performed in the maintenance target building whose moving distance is equal to or greater than the predetermined distance is preferentially assigned on a weather day. The predetermined distance is several km, for example, and is 1 km or 2 km as an example. Note that the value of the predetermined distance may be changed to an arbitrary value by the user.

  Further, the schedule creation unit 60 assigns maintenance work performed outdoors outdoors on a weather day with the highest priority, and assigns maintenance work performed on a maintenance target building without a parking lot second on a weather day, Maintenance work performed in a maintenance target building whose moving distance is equal to or greater than a predetermined distance may be assigned the weather day with the third highest priority. By assigning maintenance work performed outdoors outdoors on a weather day, work efficiency can be improved, and for maintenance target buildings that have no parking lots compared to maintenance target buildings whose moving distance is more than a predetermined distance. By assigning priority to the maintenance work performed in this way, the travel time can be further shortened. In addition, the schedule creation unit 60 assigns maintenance work corresponding to these three conditions (outdoor work, work in a building without a parking lot, and work in a building with a long moving distance) with the highest priority on a weather day. The maintenance work corresponding to the two conditions may be assigned the weather day with the second highest priority, and the maintenance work corresponding to the one condition may be assigned the weather day with the third highest priority.

  Next, the schedule creation unit 60, based on the position information, railway information, map information, and traffic jam information of each maintenance target building, travel time required for the worker to move from the service base to each maintenance target building, The travel time required for the worker to move from one maintenance target building to another maintenance target building is estimated. For example, the schedule creation unit 60 includes a travel time required for traveling by rail, a travel time required for traveling by automobile, a travel time required for traveling by bicycle, and a travel time required for traveling on foot. Is estimated. Moreover, the schedule preparation part 60 estimates the movement time by the combination of 2 or more of a railroad, a motor vehicle, a bicycle, and a walk. The schedule creation unit 60 obtains a travel time required for traveling by rail based on railroad schedule information, a timetable, and the like. In addition, the moving speeds of automobiles, bicycles, and walking are determined in advance, and the schedule creation unit 60 travels when traveling by car and traveling when traveling by bike according to the predetermined traveling speed. And the travel time required for moving on foot is estimated. The moving speed of automobiles, bicycles, and walking may be arbitrarily changed by the user.

  The schedule creation unit 60 determines that the total of the total movement time required for the maintenance work performed in the plurality of maintenance target buildings and the total movement time of the worker when the worker circulates the plurality of maintenance target buildings is a predetermined value. Determine a moving tool (moving means and moving route) for an operator to move to each of a plurality of maintenance work combinations and a plurality of maintenance target buildings included in the combination that are within the time. A plurality of maintenance work included in the combination is assigned to the same work day. For example, the schedule creation unit 60 determines a combination of a plurality of maintenance operations and a movement tool that the sum of the total movement time and the total work time of the worker is within a predetermined time and the total movement time of the worker is minimized. It is preferable to assign a plurality of maintenance work included in the combination to the same work day. The predetermined time is, for example, a working time of a day (for example, 10 hours), and may be changed to an arbitrary time by the user.

  In addition, the schedule creation unit 60 is a combination of a plurality of maintenance operations in which the total of the total movement time and the total operation time of the worker is within a predetermined time, and the number of maintenance operations allocated within the predetermined time is maximized. And a moving tool may be determined, and a plurality of maintenance work included in the combination may be assigned to the same work day. Further, the schedule creation unit 60 determines that the total of the total movement time and the total work time of the worker is within a predetermined time, the number of maintenance work allocated within the predetermined time is maximized, and the total movement time of the worker is It is also possible to determine a plurality of maintenance target combinations and moving tools that minimize the number of maintenance objects, and assign a plurality of maintenance tasks included in the combination to the same work day.

  As described above, the schedule creation unit 60 assigns a plurality of maintenance work scheduled for the maintenance work time (for example, the next month) to each work day, and further allows the worker to move to a plurality of maintenance target buildings. A moving tool is determined, a work schedule indicating a correspondence relationship between the building to be maintained, maintenance work contents, work date, and the moving tool is created, and the work schedule is output. For example, the schedule creation unit 60 may display the work schedule on the display device of the UI unit 10, or may cause the printing device (not shown) to print the work schedule. The worker of the maintenance company refers to the work schedule displayed on the display device or the printed work schedule, and performs maintenance work by visiting each maintenance target building on each work day according to the work schedule.

  As described above, by using the contents of maintenance work, weather forecasts, and geographical conditions, it is possible to effectively perform maintenance work by patroling multiple maintenance target buildings in consideration of weather conditions and moving tools. A work schedule can be created.

  For example, by preferentially assigning maintenance work that requires outdoor work on a weather day, it is not necessary to perform the maintenance work on a rainy day, thereby improving work efficiency at the work site. In addition, maintenance work performed on buildings that are estimated to be difficult to visit by car and maintenance work performed on buildings far from the maintenance service base or the nearest station are preferentially assigned on weather days. The travel time can be shortened compared with the assignment on a rainy day, and as a result, a plurality of maintenance target buildings can be efficiently visited. Thus, by determining the work day based on the weather forecast, it is possible to create a work schedule that takes into consideration the ease of maintenance work and the ease of movement to the maintenance target building. That is, since the work schedule created by the maintenance work schedule creation device according to the present embodiment takes into consideration the work efficiency of the maintenance work and the efficiency of movement, the worker can refer to this work schedule to improve the efficiency. Thus, it is possible to perform maintenance work by patroling a plurality of maintenance target buildings.

  In addition, a combination of a plurality of maintenance operations and a movement tool in which the total of the total movement time and the total operation time of the worker is within a predetermined time (for example, within 10 hours) are determined, and the plurality of maintenance operations included in the combination are determined. By assigning the same work day, it is possible to create a work schedule for efficiently performing a maintenance work by visiting a plurality of maintenance target buildings. Furthermore, by determining a combination of a plurality of maintenance operations and a movement tool that minimize the total movement time of the worker, and assigning a plurality of maintenance operations included in the combination to the same work day, the movement time is shortened. Therefore, it is possible to create a work schedule for performing maintenance work by visiting a plurality of maintenance target buildings more efficiently.

  Moreover, it is preferable that the schedule preparation part 60 allocates the same maintenance work on the same work day. This is because the same maintenance work may use the same tool, and the number of tools taken out by the operator can be reduced by assigning the same maintenance work to the same work day. For example, the schedule creation unit 60 calculates the total of the total movement time required for the same maintenance work performed in the plurality of maintenance target buildings and the total movement time of the worker when the worker circulates a plurality of maintenance target buildings, A combination of a plurality of the same maintenance work within a predetermined time and a moving tool for the worker to move to each of a plurality of maintenance target buildings in which the plurality of maintenance work included in the combination are performed are included in the combination. A plurality of identical maintenance work is assigned to the same work day. Note that, as described above, the predetermined time is, for example, an operating time of one day (for example, 10 hours), and may be arbitrarily changed by the user. In addition, the schedule creation unit 60 includes a plurality of combinations and movement tools of the same maintenance work in which the total of the total movement time and the total work time of the worker is within a predetermined time and the total movement time of the worker is minimized. It is preferable to determine and assign a plurality of the same maintenance work included in the combination to the same work day.

  In addition, the schedule creation unit 60 includes a plurality of maintenance operations in which the total of the total movement time and the total operation time of the worker is within a predetermined time, and the number of the same maintenance operations allocated within the predetermined time is maximized. A moving tool for moving an operator to each of a plurality of maintenance target buildings in which a combination and a plurality of maintenance operations included in the combination are performed is determined, and a plurality of the same maintenance operations included in the combination are performed on the same work day. May be assigned.

  In addition, the schedule creation unit 60 includes a combination of a plurality of different maintenance operations in which the total of the total movement time and the total operation time of the worker is within a predetermined time and the tools are common, and a plurality of maintenance included in the combination. A movement tool for moving an operator to each of a plurality of maintenance target buildings on which work is performed may be determined, and a plurality of maintenance work included in the combination may be assigned to the same work day. For example, the schedule creation unit 60 identifies each tool used in each maintenance work by referring to the tool information associated with the maintenance work information, and combines a plurality of different maintenance work combinations with which the tools are common. decide.

  For example, as shown in FIG. 2, an elevator rope check requires a rope checker as a tool, and an elevator lighting exchange requires a stepladder as a tool. Further, a step removal tool is required for removing the escalator step, and a handrail removal tool is required for removing the handrail of the escalator. In this way, different tools are required depending on the content of the maintenance work even for the same equipment. Therefore, when different maintenance work is assigned on the same work day, the worker needs to take out multiple types of tools. As a result, the burden on the worker increases, and the multiple maintenance target buildings can be efficiently visited. It becomes difficult to do. On the other hand, as in this embodiment, by assigning the same maintenance work to the same work day, the number of tools brought out by the worker can be reduced, so that the burden on the worker can be reduced. It becomes. In addition, when traveling around a building to be maintained by means of transportation other than automobiles (railroad, bicycle, walking, etc.), the number of tools taken by the worker is reduced to reduce the burden of the worker's movement. It can be shortened. As a result, it is possible to efficiently perform maintenance work by patroling a plurality of maintenance target buildings.

  In addition, when the time of maintenance work is specified in advance, such as when performing maintenance work regularly, the maintenance work schedule creation device according to the present embodiment performs the maintenance work before the time when the maintenance work is performed. A work schedule may be automatically created at this time. For example, when an elevator or an escalator is regularly maintained at a rate of once every several months, a work schedule is automatically created by the month before the month in which the maintenance work is performed. In this case, the information acquisition unit 50 refers to the maintenance work time information stored in the property information storage unit 20 to identify the time of the maintenance work performed in each building, and before the time of the maintenance work The property information of each building, maintenance work information, weather forecast information, and geographical condition information (railway information, map information, and traffic jam information) are acquired, and the information is output to the schedule creation unit 60. Then, the schedule creation unit 60 creates and outputs a work schedule at the time of maintenance work based on each piece of information acquired by the information acquisition unit 50. For example, when maintenance work is performed once every several months, a work schedule is created and output according to the ratio. Thus, by automatically creating a work schedule for a maintenance work whose work time is specified, it is possible to save the user from inputting various information.

  Even during the maintenance period (for example, the month), the information acquisition unit 50 acquires the latest weather forecast information, the latest map information, the latest railroad information, and the latest traffic jam information, and creates a schedule. The unit 60 may create a work schedule based on the latest information acquired by the information acquisition unit 50. Thus, the work schedule may be updated as needed based on the latest information.

  The maintenance work schedule creation apparatus described above includes a processor such as a CPU (not shown). The processor implements the functions of the information acquisition unit 50 and the schedule creation unit 60 by executing a program stored in a memory (not shown). The program is stored in a storage device such as a hard disk drive (HDD) via a recording medium such as a CD or DVD, or via a communication path such as a network. The program may be stored in advance in a storage device such as a hard disk drive. Programs stored in a storage device such as a hard disk drive are read into a memory such as a RAM and executed by a processor such as a CPU, whereby the functions of the information acquisition unit 50 and the schedule creation unit 60 are realized.

  DESCRIPTION OF SYMBOLS 10 User interface part (UI part), 20 Property information storage part, 30 Maintenance work information storage part, 40 Communication part, 50 Information acquisition part, 51 Property information acquisition part, 52 Maintenance work information acquisition part, 53 Weather forecast information acquisition part 54 Map information acquisition part 55 Railway information acquisition part 56 Traffic jam information acquisition part 60 Schedule preparation part.

Claims (9)

Maintenance work information indicating the contents of maintenance work performed in each of the plurality of buildings, receiving the property information specifying each of the plurality of buildings where the equipment to be subjected to maintenance work is installed, the plurality of buildings Information acquisition means for acquiring weather forecast information indicating a weather forecast in an area including each of the locations of the information and geographical condition information indicating the geographical conditions of the area including the locations of the plurality of buildings;
Based on the location of each of the plurality of buildings, the content of the maintenance work indicated by the maintenance work information, the weather forecast indicated by the weather forecast information and the geographical condition indicated by the geographical condition information, each of the plurality of buildings A schedule creation means for creating a work schedule indicating a work day for performing maintenance work and a moving tool for the worker to move to each of the plurality of buildings;
A maintenance work schedule creation device characterized by comprising: The maintenance work schedule creation device according to claim 1,
The maintenance work information includes work place information indicating whether the maintenance work is a work performed outdoors,
The schedule creation means specifies a weather day based on the weather forecast information, and assigns maintenance work performed outdoors with priority to the weather day,
A maintenance work schedule creation device characterized by that. The maintenance work schedule creation device according to claim 1,
The property information includes parking lot information indicating the presence or absence of a parking lot in the building,
The schedule creation means specifies a weather day based on the weather forecast information and preferentially assigns maintenance work performed in a building without a parking lot.
A maintenance work schedule creation device characterized by that. The maintenance work schedule creation device according to claim 1,
The schedule creation means specifies a weather day based on the weather forecast information, obtains a moving distance of the worker to the building based on the geographical condition information, and the building where the moving distance is a predetermined distance or more Preferentially assign maintenance work done in the weather day,
A maintenance work schedule creation device characterized by that. The maintenance work schedule creation device according to claim 1,
The maintenance work information includes work place information indicating whether or not the maintenance work is performed outdoors, and parking lot information indicating the presence or absence of a parking lot in a building,
The schedule creation means specifies the weather day based on the weather forecast information, obtains the movement distance of the worker to the building based on the geographical condition information, and gives priority to maintenance work performed outdoors. Assigned on the day of the weather, the maintenance work performed in the building without the parking lot is assigned second priority on the day of the weather, and the maintenance work performed in the building where the moving distance is equal to or more than the predetermined distance is the third. Prioritize weather days,
A maintenance work schedule creation device characterized by that. The maintenance work schedule creation device according to any one of claims 1 to 5,
The maintenance work information includes work time information indicating a work time required for the maintenance work,
The geographical condition information includes railroad information indicating a railway operation plan in an area including the locations of the plurality of buildings, map information indicating a map of an area including the locations of the plurality of buildings, Traffic information indicating the degree of past traffic congestion in the area including each location of
The schedule creation means, based on the location of each of the plurality of buildings, the railway operation plan indicated by the railway information, the map indicated by the map information, and the degree of past traffic congestion indicated by the congestion information, Predicting the movement time of the worker, a combination of a plurality of maintenance work in which the total of the movement time of the worker and the work time required for the maintenance work is within a predetermined time, and the plurality of maintenance work included in the combination are Determining a moving tool for the worker to move to each of a plurality of buildings to be performed, and assigning the plurality of maintenance operations included in the combination to the same work day;
A maintenance work schedule creation device characterized by that. The maintenance work schedule creation device according to claim 6,
The schedule creation means includes a combination of a plurality of maintenance operations in which the total of the movement time of the worker and the work time required for maintenance work is within a predetermined time, and the movement time of the worker is minimized, and the combination. Determining a moving tool for the worker to move to each of a plurality of buildings where the plurality of maintenance operations included are performed, and assigning the plurality of maintenance operations included in the combination to the same work day;
A maintenance work schedule creation device characterized by that. The maintenance work schedule creation device according to any one of claims 1 to 7,
The schedule creation means assigns the same maintenance work to the same work day,
A maintenance work schedule creation device characterized by that. On the computer,
Maintenance work information indicating the contents of maintenance work performed in each of the plurality of buildings, receiving the property information specifying each of the plurality of buildings where the equipment to be subjected to maintenance work is installed, the plurality of buildings A first step of obtaining weather forecast information indicating a weather forecast in a region including each of the locations of the plurality of buildings and geographical condition information indicating a geographical condition of the region including the locations of the plurality of buildings;
Based on the location of each of the plurality of buildings, the content of the maintenance work indicated by the maintenance work information, the weather forecast indicated by the weather forecast information and the geographical condition indicated by the geographical condition information, each of the plurality of buildings A second step of creating a work schedule indicating a work day for performing maintenance work and a moving tool for the worker to move to each of the plurality of buildings;
A program characterized by having executed.

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