JP2018005750A - Bim system, method and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a BIM system which allows components of a building to be efficiently managed, a method and a program.SOLUTION: The BIM system has a control part, a storage part and a display part. The control part has elevator modeling means, integrated modeling means and display control means. The elevator modeling means prepares BIM components corresponding to input preparation conditions by using component information stored in component information storage means. The integrated modeling means prepares an integrated BIM model by integrating the prepared BIM components in a BIM model stored in BIM model storage means while associating the prepared BIM components with relevant information stored in relevant information storage means. The display control means causes the display part to display a first screen. The first screen includes a three-dimensional display of the BIM components of the elevator prepared by the elevator modeling means and the relevant information associated with the BIM components by the integrated modeling means.SELECTED DRAWING: Figure 1

Description

  The present embodiment relates to a BIM system, a method, and a program.

  In recent years, BIM (Building Information Modeling) is used to streamline and improve the efficiency of work related to architecture and data management. It is also desired to improve efficiency when managing parts (components) of buildings constructed using BIM.

Japanese Patent No. 5645321

  One embodiment aims to provide a BIM system, method and program capable of efficiently managing building parts.

  According to one embodiment, a BIM system having a control unit, a storage unit, and a display unit is provided. The storage unit includes BIM model storage means, parts information storage means, and related information storage means. The BIM model storage means stores a BIM model of a building. The part information storage means stores part information related to the BIM parts of the elevator that can be incorporated into the BIM model. The related information storage means stores related information. Related information includes handling instruction information indicating how to handle the elevator, inspection / maintenance / repair history information accumulated during periodic inspection or repair work of the elevator, operation information / failure history information of the elevator handled by the elevator monitoring system And at least one of information on the latest model of the elevator and latest legal information on the elevator. The control unit includes elevator modeling means, integrated modeling means, and display control means. The elevator modeling means creates a BIM part corresponding to the created creation condition using the part information stored in the part information storage means. The integrated modeling means creates the integrated BIM model by associating the created BIM part with the BIM model stored in the BIM model storage means while associating the created BIM part with the related information stored in the related information storage means. The display control means displays the first screen on the display unit. The first screen includes a three-dimensional display of the elevator BIM part created by the elevator modeling means and related information associated with the BIM part by the integrated modeling means.

The block diagram which shows the structure of the BIM system concerning embodiment. The flowchart which shows the key plan 3D display operation | movement of the BIM system concerning embodiment. The figure which shows the attribute information contained in the BIM part in embodiment. The figure which shows the structure of the top view display screen in embodiment. The figure which shows the structure of the key plan 3D display screen in embodiment. The flowchart which shows the handling description display operation | movement of the BIM system concerning embodiment. The figure which shows the structure of the detailed display screen in embodiment. The figure which shows the structure of the handling description display screen in embodiment. The flowchart which shows the operation condition display operation | movement of the BIM system concerning embodiment. The figure which shows the structure of the longitudinal cross-section display screen in embodiment. The figure which shows the structure of the operation condition display screen in embodiment. 6 is a flowchart showing a schedule display operation of the BIM system according to the embodiment. The figure which shows the data structure of the inspection / maintenance / repair history information in the embodiment. The figure which shows the structure of the schedule display screen in embodiment. The flowchart which shows the proposal display operation | movement of the BIM system concerning embodiment. The figure which shows the data structure of the failure log | history data of the elevator in embodiment. The figure which shows the data structure of the newest model data of the elevator in embodiment. The figure which shows the data structure of the newest law data of the elevator in embodiment.

  Hereinafter, a BIM system according to an embodiment will be described in detail with reference to the accompanying drawings. In addition, this invention is not limited by this embodiment.

(Embodiment)
In the building design method by BIM, each contractor can share a three-dimensional model of a building (that is, a BIM model of a building) that is data of the entire building. For this reason, each contractor can confirm their relevance and consistency on common data. In the following embodiment, a system (BIM system) for using this BIM to propose an elevator to a customer (management company, owner, etc.) will be described.

  In the following, as a general rule, when it is simply referred to as “parts”, it refers to actual components constituting the building, and when it is referred to as “BIM parts”, it refers to virtual components on the BIM corresponding to the parts. However, for convenience of explanation, it is assumed that “part” indicates a corresponding “BIM part” or “BIM part” indicates a corresponding “part”.

  For example, the BIM system 1 is configured as shown in FIG. FIG. 1 is a block diagram showing a configuration of the BIM system 1. In the following, a communication-type BIM system will be described as a specific example. However, the present invention is not limited to this, and can be applied to a stand-alone BIM system. In addition, the form of function distribution on the server side and terminal side in the BIM system is not limited to the following, and may be configured to be functionally or physically distributed / integrated in arbitrary units within a range where similar effects and functions can be achieved. Can do.

  The BIM system 1 is a system that provides a service to a customer after delivering the BIM (Building Information Modeling) to a PC (Personal Computer) type elevator monitoring system 100 of the customer (management company, owner, etc.). In the BIM system 1, the PC type elevator monitoring system 100, which has been delivered mainly to large projects, handles a wide variety of information such as operation information and failure history of group management elevators. There is a possibility that a wide variety of information (related information) cannot be used effectively. Further, the monitoring screen of the PC type elevator monitoring system 100 is mainly a two-dimensional display as a display form, and there is room for improvement in the visibility of the screen.

  Therefore, in the present embodiment, in the BIM system 1, the related information is associated with the information of the BIM parts, and the monitoring screen including the three-dimensional display of the BIM parts and the related information is displayed in the PC type elevator monitoring system 100. By doing so, the visibility of the monitoring screen is improved while effectively using the related information.

  That is, information of BIM parts designed using BIM (Building Information Modeling) and including three-dimensional structure information as attribute data, operation information / failure history data handled by PC type elevator monitoring system 100, inspection / maintenance / repair history Integrate related information such as data, latest model data, and latest legal data. Then, in the PC type elevator monitoring system 100, a monitor screen including 3D display (three-dimensional display) of BIM parts based on the three-dimensional structure information and related information is displayed on the display unit 114. Further, using the fact that the related information is associated with the information of the BIM parts, the BIM system 1 considers the failure history of the BIM parts and proposes a renewal / repair plan that meets the needs of each customer.

  Specifically, the BIM system 1 includes a server device 200, a terminal device 700, a terminal device 400, a terminal device 500, a PC type elevator monitoring system 100, a local area network 600, and a network 300. In the BIM system 1, the server device 200, the terminal device 700, the terminal device 400, and the terminal device 500 are arranged on the elevator manufacturer side, and the PC type elevator monitoring system 100 is arranged on the owner / management company side. The server apparatus 200 and the PC type elevator monitoring system 100 are connected to each other via a network 300 so that they can communicate with each other. The server device 200, the terminal device 700, the terminal device 400, and the terminal device 500 are connected to be communicable with each other via a local area network 600 provided on the elevator manufacturer side.

  The terminal device 700 can be used by a person in charge of an elevator manufacturer who newly delivered an elevator to a building to register information related to the newly delivered elevator in the server apparatus 200. The terminal device 700 includes a control unit 712, a communication control interface unit 714, a storage unit 716, an input / output control interface unit 718, a display unit 724, and an input unit 726. The control unit 712 includes an information transmission / reception unit 712a. The display unit 724 displays and outputs predetermined information to the user. The input unit 726 can receive predetermined information from the user. The input unit 726 can accept an instruction for registering information related to the newly installed elevator in the server apparatus 200 from a user (person in charge of the elevator manufacturer). At this time, the input unit 726 can accept an instruction including identification information (part identifier) of the BIM part corresponding to the newly installed elevator from the user.

  The terminal device 400 can be used for registering information (history information) regarding inspection, maintenance, and repair in the server device 200 by a person in charge of the elevator manufacturer who performed inspection, maintenance, and repair of the elevator in the building. The terminal device 400 includes a control unit 412, a communication control interface unit 414, a storage unit 416, an input / output control interface unit 418, a display unit 424, and an input unit 426. The control unit 412 includes an information transmission / reception unit 412a. The display unit 424 displays and outputs predetermined information to the user. The input unit 426 can receive predetermined information from the user. The input unit 426 can accept an instruction for registering information (history information) on inspection / maintenance / repair of the elevator in the server apparatus 200 from a user (person in charge of the elevator manufacturer). At this time, the input unit 426 can accept an instruction including identification information (part identifier) of a BIM part corresponding to the elevator to be inspected, maintained, or repaired from the user.

  The terminal device 500 can be used to create a proposal by a person in charge of an elevator manufacturer who should make a proposal for renewal / renovation of an elevator in a building. The terminal device 500 includes a control unit 512, a communication control interface unit 514, a storage unit 516, an input / output control interface unit 518, a display unit 524, and an input unit 526. The control unit 512 includes an information transmission / reception unit 512a. The display unit 524 displays and outputs predetermined information to the user. The input unit 526 can receive predetermined information from the user. The input unit 526 can receive an instruction for creating a proposal from a user (a person in charge of an elevator manufacturer). At this time, the input unit 526 can accept an instruction including identification information (part identifier) of the BIM part corresponding to the elevator to be renewed / refurbished from the user.

  On the side of the owner / management company, the PC type elevator monitoring system 100 is a monitoring panel installed in a local disaster prevention center or a management room, for example, for monitoring a plurality of elevators. The PC type elevator monitoring system 100 uses a BIM model in order to monitor and control a plurality of elevators.

  On the elevator manufacturer side, the server device 200 is provided to provide various services. The server device 200 can create an elevator BIM part corresponding to the creation condition transmitted from the terminal device 700, and can transmit the created BIM part to the PC elevator monitoring system 100. The server device 200 includes a control unit 202, a communication control interface unit 204, a communication control interface unit 205, and a storage unit 206.

  The control unit 202 performs various processes. The communication control interface unit 204 is an interface connected to a communication device (not shown) such as an antenna or a router connected to a communication line or a telephone line, and performs communication control between the server device 200 and the network 300. Do. That is, the communication control interface unit 204 communicates data with the PC type elevator monitoring system 100 and the like via the network 300. The communication control interface unit 205 is an interface connected to a communication device (not shown) such as an antenna or a router connected to a communication line or a telephone line, and communication between the server device 200 and the local area network 600. Take control. That is, the communication control interface unit 205 communicates data with the terminal device 700, the terminal device 400, the terminal device 500, and the like via the local area network 600. The storage unit 206 is a fixed disk device such as an HDD (Hard Disk Drive) or a storage unit such as an SSD (Solid State Drive), and stores information such as various databases and tables.

  The storage unit 206 includes a parts information database 206a, a key plan database 206b, an instruction explanation database 206c, an inspection / maintenance / repair history database 206d, an operation information database 206e, a failure history database 206f, a latest model database 206g, and a latest law database 206h. Store.

  The parts information database 206a stores part information related to parts for creating elevator BIM parts that can be incorporated into a BIM model of a building.

  Here, the elevator is a concept including an elevator and a passenger conveyor, and the passenger conveyor includes an escalator and a moving sidewalk. The part information includes any information necessary for the user to design the BIM part of the elevator, which is associated with information for identifying the part (for example, a part identifier). Parts information includes, for example, elevator specifications such as usage, capacity, loading capacity, operating speed, color, model, etc., space and dimensions required when installing elevators in buildings, information on various accessories, elevators Information such as member strength, price, dimensions, mass, color, material, natural frequency of the necessary components that make up the product, as well as delivery date, inventory status, installation time, finishing material, manufacturer information, product model number, cost required for parts maintenance Cost information and the like, but is not limited to the above.

  For example, the part information includes size information of the BIM part that is referred to when the BIM part is incorporated into the BIM model in the PC type elevator monitoring system 100. Here, the size information of the BIM part includes size information of the parts (that is, each unit or component) constituting the BIM part. As each unit constituting the BIM parts, for example, when the elevator is an elevator, a hoistway, a car, a counter weight, a main rope, a hoisting machine, a guide rail, a landing hall related product, a machine room, a control panel , Power supply facilities, various wiring pipes and the like. In addition, as each unit constituting the BIM part, for example, when the elevator is an escalator, a truss, a step, a step chain, a moving handrail, a boarding board, a railing, a driving device, a machine room, a control panel, a power supply facility, Various wiring piping etc. are mentioned. Moreover, parts information contains the setting parameter used when a BIM part is changed by the PC type elevator monitoring system 100, for example. Here, the setting parameters include parameters that define the size, color, material, and various wiring pipes of each unit constituting the BIM part. The BIM part includes attribute information such as part information related to the target elevator in the BIM part itself, as in a typical BIM model.

  The key plan database 206b stores key plan data received by the communication control interface unit 205 from the terminal device 700 via the local area network 600 and stored in the storage unit 206, for example. That is, the key plan data includes attribute information of elevators newly installed (installed) in a building, associated with information for identifying parts (for example, a part identifier). The attribute information includes, for example, information on the specifications of the elevator (specification information), information on the installation location of the elevator (building information), information on the installation environment of the elevator (environment information), information on the installation state of the elevator (payment information), etc. Including. The specification information includes an identifier of the elevator in the building (an identifier indicating the number of the elevator), a model of the elevator, the number of floors where the elevator is stopped, and the like. The building information includes the structure of the building where the elevator is installed, the height of the building, the number of floors of the building, and the like. The environmental information includes the presence or absence of salt damage, the presence or absence of cold, and the presence or absence of high humidity. If the elevator is an elevator, the storage information includes the effective dimensions of the hoistway through which the car passes, the presence or absence of a function that activates the machine room, the pit depth (the car in the state where the car is stopped at the lowest floor) Including the distance from the bottom to the bottom of the hoistway), the lifting process (the length of the process in which the car goes up and down), and the overhead (the distance from the top of the car to the machine room when the car is stopped on the top floor) .

  The handling explanation database 206c stores handling explanation data received by the communication control interface unit 205 from the terminal device 700 via the local area network 600 and stored in the storage unit 206, for example. In other words, the handling explanation data includes handling explanation information of the elevator newly delivered (installed) to the building associated with information (for example, a part identifier) for identifying the part. The handling instruction information includes, for example, information on the elevator operation / pause switch, information on how to operate / pause the elevator, and the like.

  The inspection / maintenance / repair history database 206d stores, for example, inspection / maintenance / repair history data received from the terminal device 400 via the local area network 600 by the communication control interface unit 205 and stored in the storage unit 206. That is, the inspection / maintenance / repair history data includes inspection / maintenance / repair history information associated with information for identifying a part (for example, a part identifier). Inspection / maintenance / renovation history information includes information on the contents and date / time of periodic inspections for elevators installed in buildings, information on maintenance contents / date and time for parts installed in buildings, etc., installed in buildings Includes information on the contents and date of refurbishment of the elevator.

  The operation information database 206e stores, for example, operation information data received by the communication control interface unit 204 from the PC type elevator monitoring system 100 via the network 300 and stored in the storage unit 206. In other words, the operation information data includes information on the current state of the elevator (current information) and the number of elevator users per unit time (for example, one day) associated with information for identifying parts (for example, a part identifier). Includes information on (number of passengers) and operation diagrams. In addition, when the elevator is an elevator, the operation information data includes the number of hall call registrations per unit time, the number of car call registrations per unit time, and unit time associated with information for identifying parts (for example, part identifier). The average non-response time per unit and the maximum non-response time per unit time are included.

  For example, when the elevator is an elevator, the group management control unit (elevator control panel) that controls a plurality of elevators receives the hall call via a predetermined communication line from the hall button and registers the hall call. When a car call is received from a button in the car via a predetermined communication line, the car call is registered. The group management control unit (elevator control panel) allocates one of a plurality of elevator cars as a car responding to the hall call and / or car call, and causes the car to land on a predetermined floor. The control unit 102 of the PC type elevator monitoring system 100 receives information related to the current state of the car (for example, the current position of the car, the registration contents of the hall call, the registration contents of the car call, etc.). Can be stored as operation information data. The control unit 102 can count the number of hall call registrations and / or the number of car call registrations for every predetermined time unit (for example, one day), and can accumulate it as operation information data. The control unit 102 calculates the time from the timing at which the hall call and / or car call is registered to the timing at which the assigned car is landed and opened as an unanswered time and accumulates it as operation information data it can. The control unit 102 averages the non-response time every predetermined time unit (for example, one day) to obtain an average non-response time, obtains the maximum value of the non-response time, obtains the maximum non-response time, and operates information data Can be stored as The PC elevator monitoring system 100 can transmit operation information data to the server device 200 via the network 300 in response to a request from the server device 200 or periodically.

  The failure history database 206f stores, for example, failure history data received by the communication control interface unit 204 from the PC type elevator monitoring system 100 via the network 300 and stored in the storage unit 206. That is, the failure history data includes information related to the content / date and time of failure for an elevator installed in a building, which is associated with information for identifying a part (for example, a part identifier).

  For example, when the elevator is an elevator, the PC type elevator monitoring system 100 acquires signals from the plurality of monitoring sensors 2-1 to 2-k via the monitoring network 3 (see FIG. 1) and the group management control unit. Therefore, the presence or absence of failure of each elevator is monitored. The plurality of monitoring sensors 2-1 to 2-k correspond to a plurality of elevators. Each monitoring sensor 2 is installed in a corresponding elevator, can detect information on the state of the elevator, and can transmit the detection result to the PC type elevator monitoring system 100 via the monitoring network 3 and the group management control unit. When the PC type elevator monitoring system 100 recognizes the occurrence of a failure in the elevator based on the detection result of the monitoring sensor 2, the PC type elevator monitoring system 100 can acquire the date and time and accumulate the failure content and date as failure history data. The PC elevator monitoring system 100 can transmit failure history data to the server apparatus 200 via the network 300 in response to a request from the server apparatus 200 or periodically.

  The latest model database 206g stores the latest model data received by the communication control interface unit 205 from the terminal device 500 via the local area network 600 and stored in the storage unit 206, for example. In other words, the latest model data includes information related to the latest model of the elevator that is a candidate for installation in a building and is associated with information for identifying a part (for example, a part identifier). The information on the latest model of the elevator includes, for example, the model of the elevator, the capacity of the elevator, the transportation capacity of the elevator, and the like.

  The latest law database 206h stores, for example, the latest law data received from the terminal device 500 via the local area network 600 by the communication control interface unit 205 and stored in the storage unit 206. In other words, the latest law data includes information on the latest law relating to the elevator, which is associated with information (for example, a part identifier) for identifying the part. Information on the latest laws and regulations relating to elevators includes, for example, information on laws and regulations relating to brakes, information on laws and regulations relating to car doors and landing door switches, information on laws and regulations relating to specific distance sensing devices, and information on laws and regulations relating to door-open travel determination devices.

  The control unit 202 includes an internal memory for storing a control program such as an OS (Operating System), a program defining various processing procedures, and necessary data. And the control part 202 performs the information processing for performing various processes with these programs. The control unit 202 includes a creation condition reception unit 202a, an elevator modeling unit 202b, an information transmission / reception unit 202c, a schedule creation unit 202d, and a proposal creation unit 202e as functional configurations. Each functional configuration in the control unit 202 may be realized by hardware (as a circuit disposed in the control unit 202) or by software (executed in the control unit 202 by executing a program on a memory). It may be realized as a functional module), or a part of it may be realized by hardware and the remaining part may be realized by software.

  The creation condition receiving unit 202a receives a creation condition transmitted from the terminal device 700. Here, the creation condition is a condition for creating a BIM part of an elevator that can be incorporated into a BIM model of a building, and is a condition that indicates the specifications of the newly installed elevator. The creation condition may include at least one of, for example, model, color, material, desired price, delivery date, user preference, and the like. The creation conditions may be input by the user via the input unit 118 in the PC type elevator monitoring system 100, or read from an external storage device (not shown) in which the creation conditions are stored in advance. It may be the one.

  The elevator modeling unit 202b creates the BIM part of the elevator corresponding to the creation condition received by the creation condition receiving unit 202a using the part information stored in the part information database 206a. The elevator modeling unit 202b creates, for example, an elevator three-dimensional BIM part and / or an escalator three-dimensional BIM part.

  The elevator modeling unit 202b may create BIM parts for a plurality of elevators that satisfy the creation conditions so that the user can select them while checking on the screen. The elevator modeling unit 202b, for example, from the outline, scale, installation position, power supply facility capacity, etc. of the building based on the BIM model structure information described below based on the creation conditions received by the creation condition reception unit 202a. Create one or more BIM parts for elevators that can be installed in buildings. Further, the elevator modeling unit 202b may automatically optimize and create BIM parts according to the delivery date, price, or preference based on the creation conditions received by the creation condition receiving unit 202a. For example, the elevator modeling unit 202b automatically creates a plurality of BIM parts for the elevator that can be installed in order from the earliest delivery date when the user selects the delivery date when installing the elevator. Also good. Similarly, the elevator modeling unit 202b may automatically create a plurality of BIM parts of a plurality of elevators that can be installed in order from the lowest price in the case where the price priority is selected by the user. Good. When the user's preference is set by the user, the elevator modeling unit 202b automatically creates a plurality of BIM parts of a plurality of elevators that can be installed in order from the one that suits the preference. Also good. Here, the elevator modeling unit 202b may store the created BIM parts of the elevator in the storage unit 206 to construct a BIM parts database (not shown).

  The information transmission / reception unit 202c transmits / receives various types of information to / from the terminal devices 700, 400, 500 or the PC type elevator monitoring system 100. For example, the information transmission / reception unit 202c receives information on creation conditions from the terminal device 700, or transmits BIM parts and related information to the PC elevator monitoring system 100. The BIM part is a model of a part created by the elevator modeling unit 202b according to the creation conditions. The BIM part includes the three-dimensional structure information of the part associated with information for identifying the part (for example, a part identifier). Related information is information used about BIM parts installed in a building. The related information is information associated with information for identifying a part (for example, a part identifier), handling instruction information indicating how to handle the elevator, and inspection / maintenance accumulated during periodic inspection or repair work of the elevator. -It includes at least one of repair history information, elevator operation information / failure history information handled by the PC type elevator monitoring system 100, information on the latest model of the elevator, and latest legal information on the elevator.

  For example, the information transmitting / receiving unit 202c refers to the key plan database 206b when transmitting the part information of the BIM part corresponding to the creation condition, and relates the key plan data corresponding to the identification information (part identifier) of the BIM part. Can be sent as information. The information transmitting / receiving unit 202c refers to the handling explanation database 206c, and can send handling explanation data corresponding to the identification information (part identifier) of the BIM part as related information. The information transmitting / receiving unit 202c refers to the inspection / maintenance / repair history database 206d, and can transmit inspection / maintenance / repair history data corresponding to the identification information (part identifier) of the BIM part as related information. The information transmitting / receiving unit 202c refers to the operation information database 206e, and can transmit operation information data corresponding to the identification information (part identifier) of the BIM part as related information. The information transmitting / receiving unit 202c refers to the failure history database 206f, and can transmit failure history data corresponding to the identification information (part identifier) of the BIM part as related information. The information transmitting / receiving unit 202c refers to the latest model database 206g and can transmit the latest model data corresponding to the identification information (part identifier) of the BIM part as related information.

  The schedule creation unit 202d creates inspection / maintenance / repair schedule information based on the BIM part (part identifier), the life years input for the BIM part, and the inspection / maintenance / repair history data of the BIM part. To do. The inspection / maintenance / repair schedule information is information indicating, as the maintenance work timing (part replacement timing), when the lifetime of the BIM part has elapsed since the start of operation. For example, when the lifetime of the BIM parts is input to the input unit 426, it is received by the server device 200 from the terminal device 400 via the local area network 600 and passed to the schedule creation unit 202d. When receiving the lifespan of a BIM part, the schedule creation unit 202d refers to the inspection / maintenance / repair history database 206d of the storage unit 206, and acquires inspection / maintenance / repair history data of the BIM part. The schedule creation unit 202d obtains the inspection work / maintenance / repair schedule information by obtaining the time when the lifetime has elapsed since the start of operation for each part (for each BIM part) as the maintenance work timing (part replacement timing). . The inspection / maintenance / repair schedule information is information associated with the identification information (part identifier) of the BIM parts, and the identification information and inspection of the elevator including the parts (for each BIM part) subject to inspection / maintenance / repair.・ Includes scheduled maintenance / repair dates and inspection / maintenance / repair contents. The generated inspection / maintenance / repair schedule information can be transmitted as related information to the PC type elevator monitoring system 100 via the network 300.

  The proposal creation unit 202e creates a renewal / renovation plan proposal for the BIM part based on the BIM part, the life years input for the BIM part, and the related information of the BIM part. For example, when the lifetime of BIM parts and identification information (part identifier) are input to the input unit 526, they are received by the server device 200 from the terminal device 500 via the local area network 600 and passed to the proposal creation unit 202e. It is. Upon receiving the BIM part life years and identification information (part identifier), the proposal creation unit 202e refers to the operation information database 206e of the storage unit 206 and acquires operation information data of the BIM part. The proposal creation unit 202e refers to the failure history database 206f of the storage unit 206, and acquires failure history data of the BIM part. The proposal creation unit 202e refers to the latest model database 206g in the storage unit 206 and acquires the latest model data corresponding to the BIM part. The proposal creation unit 202e refers to the latest law database 206h in the storage unit 206 and acquires the latest law data corresponding to the BIM part. The proposal creation unit 202e refers to the key plan database 206b in the storage unit 206, and acquires the key plan data of the BIM part.

  In the proposal creation unit 202e, rules necessary for creating a proposal are set in advance, and proposal data can be created according to the rules. For example, the proposal creation unit 202e can include BIM part identification information (part identifier) in the proposal data. Further, the proposal creation unit 202e, based on the failure history data of the BIM part, when a failure has occurred in the elevator part (BIM part) in a period shorter than the service life from the start of operation, about the part (BIM part) The latest model data can be included in the proposal data together with a message prompting the user to exchange for the latest model. When the proposal creation unit 202e compares the key plan data of the BIM part with the latest law data and determines that the currently installed BIM part does not conform to the latest law, the part (BIM part) is changed to the latest model. The latest model data can be included in the proposal data along with a message prompting the user to exchange. The created proposal data can be transmitted as related information to the PC elevator monitoring system 100 via the network 300.

  The PC type elevator monitoring system 100 has a function of creating an integrated BIM model corresponding to an elevator built-in building in which the elevator BIM parts received from the server device 200 are incorporated in the BIM model of the building.

  The PC type elevator monitoring system 100 is, for example, an information processing device such as a desktop or notebook personal computer, a mobile terminal device such as a mobile phone, a smartphone, a PHS, and a PDA. The PC elevator monitoring system 100 may be equipped with an Internet browser or the like, or may be equipped with a BIM application or the like. The PC elevator monitoring system 100 includes a control unit 102, a communication control interface unit 104, a communication control interface unit 109, a storage unit 106, an input / output control interface unit 108, an output unit 115, and an input unit 118. The output unit 115 outputs predetermined information to the user. The output unit 115 can include a display unit 114 and an audio output unit 116. The input unit 118 can receive predetermined information from the user.

  The display unit 114 is, for example, a display unit that displays a display screen of an application or the like (for example, a display, a monitor, a touch panel, or the like configured by liquid crystal or organic EL). The sound output unit 116 is, for example, sound output means (for example, a speaker) that outputs sound information as sound. The input unit 118 is, for example, a key input unit, a touch panel, a control pad (for example, a touch pad and a game pad), a mouse, a keyboard, and a microphone. The input / output control interface unit 108 controls the display unit 114, the audio output unit 116, the input unit 118, and the like.

  For example, in the PC type elevator monitoring system 100, the display unit 114 includes a display screen for monitoring a plurality of elevators.

  The communication control interface unit 104 is an interface connected to a communication device (not shown) such as an antenna or a router connected to a communication line, a telephone line, etc., and is connected between the PC type elevator monitoring system 100 and the network 300. It has a function to perform communication control. That is, the communication control interface unit 104 has a function of communicating data with the server device 200 or the like via a communication line. The network 300 has a function of mutually connecting the PC type elevator monitoring system 100 and the server device 200 to an external device or an external system (not shown) (for example, an external database device that functions as a BIM model database server or the like). For example, it may be the Internet, a telephone line network (such as a mobile terminal line network and a general telephone line network), an intranet, or power line communication (PLC).

  The communication control interface unit 109 is connected to the plurality of monitoring sensors 2-1 through the monitoring network 3. The plurality of monitoring sensors 2-1 correspond to a plurality of elevators. Each monitoring sensor 2 detects information related to the state of the corresponding elevator and transmits the detection result to the PC type elevator monitoring system 100 via the monitoring network 3. The communication control interface unit 109 in the PC type elevator monitoring system 100 receives the detection result and supplies it to the control unit 102.

  The storage unit 106 is a storage unit such as a large-capacity storage unit such as an HDD or an SSD and / or a small-capacity high-speed memory (for example, a cache memory) configured using an SRAM (Static Random Access Memory) or the like. , Information on various databases, files and tables (BIM model database 106a and the like) is stored. Here, the storage unit 106 may temporarily store various files and the like.

  The BIM model database 106a stores a BIM model of a building. The BIM model database 106a stores a BIM model of a building designed in advance by a designer. The BIM model may include building information. Building information includes, for example, building shape, spatial relationship, geographic information, quantity and characteristics of building members, member strength, natural frequency, useful life, and the like. In addition, the building information includes information such as building usage, building scale, number of floors, floor name, floor height, usage of each floor, floor personnel, number of elevators that can be calculated from occupied area, etc. Also good. Furthermore, the building information may include information indicating dimensions, positions, and the like regarding each structural unit constituting the target building. Here, as each structural unit constituting the BIM model, for example, a room, a wall, a passage, an emergency stairway, an evacuation route, a gas pipe, a water pipe, a fire alarm, a sprinkler, a beam, a safety measure arranged in a building Products.

  The control unit 102 includes an internal memory for storing a control program such as an OS (Operating System), a program that defines various processing procedures, and necessary data. And the control part 102 performs the information processing for performing various processes by these programs. The control unit 102 includes an information transmission / reception unit 102a, an integrated modeling unit 102b, and a display control unit 102c as functional configurations. Each functional configuration in the control unit 102 may be realized by hardware (as a circuit disposed in the control unit 102) or by software (executed in the control unit 102 by executing a program on a memory). It may be realized as a functional module), or a part of it may be realized by hardware and the remaining part may be realized by software.

  The information transmission / reception unit 102a transmits / receives various types of information to / from the server device 200. For example, the information transmitting / receiving unit 102a receives BIM parts and related information from the server device 200.

  The integrated modeling unit 102b creates an integrated BIM model by incorporating the BIM part of the elevator received by the information transmitting / receiving unit 102a into the BIM model of the building while associating it with related information. That is, the BIM part includes the three-dimensional structure information of the part associated with information for identifying the part (for example, a part identifier). The related information is information associated with information for identifying a part (for example, a part identifier), handling instruction information indicating how to handle the elevator, and inspection / maintenance accumulated during periodic inspection or repair work of the elevator. -It includes at least one of repair history information, elevator operation information / failure history information handled by the PC type elevator monitoring system 100, information on the latest model of the elevator, and latest legal information on the elevator. Therefore, the integrated modeling unit 102b can create an integrated BIM model by incorporating BIM parts and related information into a BIM model in association with each other using information (for example, part identifier) for identifying parts as a key. Here, the integrated modeling unit 102b may store the created integrated BIM model in the storage unit 106 to construct an integrated BIM model database (not shown). The integrated BIM model may be configured as a relational database in which BIM parts and related information can be cross-referenced using information (for example, a part identifier) that identifies the part as a key.

  The display control unit 102c displays various information on the display unit 114. When the control unit 102 monitors and controls a plurality of elevators, the display control unit 102c may cause the display unit 114 to display a monitoring screen.

  For example, the display control unit 102c may cause the display unit 114 to display a monitoring screen (second screen) including icons related to the elevator. The display control unit 102c displays the three-dimensional display of the BIM part of the elevator and the related information associated with the BIM part by the integrated modeling unit 102b according to the icon selection operation regarding the elevator received via the input unit 118. The monitoring screen (first screen) including the above may be displayed on the display unit 114.

  For example, the display control unit 102c may cause the display unit 114 to display a plan view display screen (second screen) indicating a plurality of elevator planes with a plurality of icons. The display control unit 102c displays a key plan 3D display screen including three-dimensional display of the BIM part of the elevator and information related to the specification of the BIM part in accordance with the selection operation of the elevator icon received via the input unit 118 ( The first screen) may be displayed on the display unit 114.

  For example, the display control unit 102c may cause the display unit 114 to display a detailed display screen (second screen) indicating the operation state of each of the plurality of elevators in an icon display form. The display control unit 102c has three-dimensional display of the BIM parts of the elevator and handling instruction information indicating how to handle the BIM parts according to the selection operation of the icon indicating the operation state of the elevator received via the input unit 118. An instruction display screen (first screen) including “” may be displayed on the display unit 114.

  For example, the display control unit 102c may cause the display unit 114 to display a vertical cross-section display screen (second screen) indicating a vertical cross-sectional arrangement of a plurality of elevators with a plurality of icons. The display control unit 102c displays an operation status display screen (first screen) including a three-dimensional display of the BIM parts of the elevator and information indicating the operation status of the elevator in accordance with the selection operation of the elevator icon. 114 may be displayed.

  For example, the display control unit 102c may cause the display unit 114 to display a monitoring screen (second screen) including icons related to the elevator. The display control unit 102c displays the inspection target / maintenance / repair target part and the inspection / maintenance / repair in the three-dimensional display of the BIM parts of the elevator in accordance with the icon selection operation regarding the elevator received via the input unit 118. A schedule display screen (first screen) including repair schedule information may be displayed on the display unit 114. The inspection / maintenance / repair schedule information is information associated with the identification information (part identifier) of the BIM parts, and the identification information and inspection of the elevator including the parts (for each BIM part) subject to inspection / maintenance / repair.・ Includes scheduled maintenance / repair dates and inspection / maintenance / repair contents.

  For example, the display control unit 102c may cause the display unit 114 to display a monitoring screen (second screen) including icons related to the elevator. The display control unit 102c may cause the display unit 114 to display a proposal for a renewal / renovation plan for the BIM parts of the elevator in response to an icon selection operation regarding the elevator received via the input unit 118.

  Next, the key plan 3D display operation of the BIM system 1 will be described with reference to FIGS. FIG. 2 is a flowchart showing the key plan 3D display operation of the BIM system 1. FIG. 3 is a diagram illustrating related information to be associated with the BIM part. FIG. 4 is a diagram showing a configuration of a plan view display screen displayed on the display unit 114 by the display control unit 102c. FIG. 5 is a diagram illustrating a configuration of a key plan 3D display screen displayed on the display unit 114 by the display control unit 102c.

  When the elevator is newly delivered to the building, the terminal device 700 accepts the BIM parts creation conditions and related information from the elevator manufacturer in charge for the newly delivered elevator. The creation conditions are conditions indicating the specifications of the newly installed elevator. The related information includes, for example, key plan data and handling instruction data. The key plan data includes, for example, information on the installation location of the elevator as shown in FIG. 3 (building information 206b1), information on the installation environment of the elevator (environment information 206b2), information on the specifications of the elevator (specification information 206b3, 206b5), It includes information (installation information 206b4, 206b6) related to the installation state of the elevator.

  The terminal device 700 transmits the creation condition and related information to the server device 200 (S1). The server device 200 receives the creation condition and the related information (S2), and creates a BIM part of the elevator corresponding to the creation condition using the part information stored in the part information database 206a (S3). For example, the server apparatus 200 can create an elevator BIM part, and can create an escalator BIM part. Further, the server device 200 updates the databases such as the key plan database 206b and the instruction manual database 206c using the related information received in S2 (S4). The server device 200 transmits the created BIM part and related information to the PC type elevator monitoring system 100 (S5).

  The PC type elevator monitoring system 100 receives the BIM part and related information (S6), and associates the received elevator BIM part with the related information into the BIM model of the building stored in the BIM model database 106a. An integrated BIM model is created (S7).

  The PC type elevator monitoring system 100 displays a plan view display screen on the display unit 114 in accordance with a display request received by the input unit 118 while the monitoring application is being executed (S8). The PC type elevator monitoring system 100 displays a plan view display screen 119a as shown in FIG. The plan view display screen 119a is a screen for monitoring a plurality of elevators, and shows a planar arrangement of the plurality of elevators with a plurality of icons. The plan view display screen 119a includes area icons 119a1 to 119a4 and elevator icons 119a11, 119a12, 119a21 to 119a25, 119a31, 119a32, and 119a41. Area icons 119a1 to 119a4 indicate the positions of areas on a predetermined floor. Elevator icons 119a11, 119a12, 119a21 to 119a25, 119a41 indicate elevators arranged in the areas of icons 119a1, 119a2, and 119a4. The elevator icons 119a31 and 119a32 indicate escalators arranged in the area of the icon 119a3.

  The PC type elevator monitoring system 100 displays a plan view display screen until the elevator icon is selected (No in S9) (S8), and detects that the elevator icon is selected (Yes in S9). Referring to the integrated BIM model (database), the key plan 3D display screen is displayed on the display unit 114 for the elevator corresponding to the selected and operated icon (S10). The PC type elevator monitoring system 100, for example, the three-dimensional model of the first elevator from the integrated BIM model (database) and related information in response to the selection operation of the first elevator icon 119a11 (see FIG. 4). And a key plan 3D display screen 119b as shown in FIG. 5 is generated and displayed on the display unit 114. The key plan 3D display screen 119b includes a three-dimensional display 119b1 of the BIM parts of the elevator, information about the specifications of the elevator (specification information 119b2), and information about the installation state of the elevator (containment information 119b3). The specification information 119b2 is information corresponding to the specification information 206b3 (see FIG. 3), and the storage information 119b3 is information corresponding to the storage information 206b4 (see FIG. 3). Thereby, the specification can be confirmed about the elevator currently monitored.

  Next, a handling instruction display operation of the BIM system 1 will be described with reference to FIGS. FIG. 6 is a flowchart showing the handling instruction display operation of the BIM system 1. FIG. 7 is a diagram illustrating a configuration of a detail display screen displayed on the display unit 114 by the display control unit 102c. FIG. 8 is a diagram illustrating a configuration of a handling instruction display screen displayed on the display unit 114 by the display control unit 102c.

  The operation from S1 to S7 is the same as the operation shown in FIG. The PC type elevator monitoring system 100 displays a detailed display screen on the display unit 114 in accordance with a display request received by the input unit 118 while the monitoring application is being executed (S11). For example, the PC type elevator monitoring system 100 displays a detailed display screen 119c as shown in FIG. The detailed display screen 119c is a screen for monitoring a plurality of elevators, and shows a specific state of the plurality of elevators with an icon of an operation state. The detail display screen 119c arranges a plurality of types of operation state icons vertically for each elevator and arranges them as an icon group. As shown in FIG. 7B in which the portion A shown in FIG. 7A is enlarged, the detailed display screen 119c includes an icon group 119c1 of the item, an icon group 119c2 of the operating state of the elevator of the first unit, and the second unit It includes an icon group 119c3 of the operating state of the elevator. The icon group 119c2 of the operation state of the elevator of the first unit includes a plurality of types of operation state icons 119c21, 119c22, and 119c23 for the elevator of the first unit. The icon group 119c3 of the operating state of the elevator of No. 2 includes a plurality of types of icons 119c31, 119c32, and 119c33 of the operating state of the elevator of No. 2.

  The PC type elevator monitoring system 100 displays the detailed display screen until the elevator operating state icon is selected and operated (No in S12) (S11), and detects that the elevator operating state icon is selected and operated. (Yes in S12), the integrated BIM model (database) is referred to, and an instruction display screen is displayed on the display unit 114 for the elevator corresponding to the icon of the operation state selected and operated (S13). For example, the PC type elevator monitoring system 100 is configured to select the elevator of the first elevator from the integrated BIM model (database) in response to the selection operation of the operation state 119c21 (see FIG. 7B) of the first elevator. A three-dimensional model and related information are extracted, and an instruction display screen 119d as shown in FIG. 8 is generated and displayed on the display unit 114. The handling instruction display screen 119d includes a three-dimensional display 119d1 of BIM parts of the elevator and handling instruction information 119d2 of the elevator. The handling instruction information 119d2 includes, for example, information on the elevator operation / pause switch, information on how to operate / pause the elevator, and the like. When the handling instruction information is information about a part of the elevator, the PC type elevator monitoring system 100 detects a part selection operation in the three-dimensional display 119d1 of the elevator BIM part, and identifies the part identifier of the part. Then, handling information corresponding to the part identifier is extracted from the integrated BIM model. For example, according to the selection operation, the PC type elevator monitoring system 100 can highlight a part of the three-dimensional display 119d1 (for example, reverse display in red, etc.) and switch and display the handling instruction information of the part. . As a result, it is possible to confirm the handling instructions (operation method, etc.) of the elevator currently being monitored or a part thereof.

  Next, the operation status display operation of the BIM system 1 will be described with reference to FIGS. FIG. 9 is a flowchart showing the operation status display operation of the BIM system 1. FIG. 10 is a diagram illustrating a configuration of a vertical section display screen displayed on the display unit 114 by the display control unit 102c. FIG. 11 is a diagram illustrating a configuration of an operation status display screen displayed on the display unit 114 by the display control unit 102c.

  The operation from S1 to S7 is the same as the operation shown in FIG. The PC type elevator monitoring system 100 obtains signals from the plurality of monitoring sensors 2-1 to 2-k, thereby generating operation information data including information (current information) on the current state of the elevator to generate the server device 200. (S21). The server device 200 receives the operation information data (S22), identifies the identification information of the BIM parts for the received operation information data, associates the identified identification information of the BIM parts with the operation information data, and operates the operation information database 206e. The database is updated (S23). The server device 200 transmits related information including the updated operation information data to the PC elevator monitoring system 100 (S24).

  The PC type elevator monitoring system 100 receives the related information (S25), associates the BIM part of the elevator with the received related information, and incorporates it into the BIM model of the building stored in the BIM model database 106a to obtain an integrated BIM model. Is updated (S26).

  The PC type elevator monitoring system 100 displays a vertical section display screen on the display unit 114 in accordance with a display request received by the input unit 118 while the monitoring application is being executed (S27). The PC type elevator monitoring system 100 displays a vertical section display screen 119e as shown in FIG. The vertical section display screen 119e is a screen for monitoring a plurality of elevators, and shows a planar arrangement of the plurality of elevators with a plurality of icons. On the vertical section display screen 119e, an operation state icon and a hoistway icon are arranged vertically for each elevator. As shown in FIG. 10 (b) in which the portion B shown in FIG. 10 (a) is enlarged, the operation state icon can take different display forms depending on the operation state of the elevator. For example, if the elevator is in a normal operation state, the word “operation” is displayed in the icon, and if the elevator is in a pause state, the letter “pause” is displayed in the icon. . As shown in FIG. 10 (c) in which the portion C shown in FIG. 10 (a) is enlarged, in the region corresponding to each floor, the left half shows information about the landing and the right half shows the information about the landing. Shows information about the car. When k is an arbitrary positive integer, in the case of FIG. 10 (c), the (k + 3) floor is a non-stop floor for both the hall call and the car call, and the halls are for the (k + 7) floor and the (k + 9) floor. The call is registered, and the car call is registered for the (k + 9) floor, indicating that the current position of the elevator is the (k + 5) floor. Further, it is indicated that the elevator is abnormally stopped at the (k + 5) floor, for example, by blinking the icon of the current position of the elevator.

  The PC type elevator monitoring system 100 displays the vertical section display screen 119e until the current position icon of the elevator is selected (No in S28) (S27), indicating that the current position icon of the elevator has been selected. When detected (Yes in S28), the integrated BIM model (database) is referred to, and an operation status display screen is displayed on the display unit 114 for the elevator corresponding to the selected and operated icon (S29). The PC type elevator monitoring system 100 is configured such that, for example, the icon of the current position of the first elevator (see FIG. 10C) is selected and operated from the integrated BIM model (database) to the first elevator 3 The dimension model and related information are extracted, and an operation status display screen 119f as shown in FIG. 11 is generated and displayed on the display unit 114. The operation status display screen 119f includes a three-dimensional display 119f1 of the elevator BIM parts, information on the current state of the elevator (current information 119f2), and handling instruction information 119f3 of the elevator. The handling explanation information 119f3 is information extracted in association with the current status information 119f2 in the handling explanation information of the elevator of the first unit. Thereby, while being able to grasp | ascertain the present condition (for example, abnormal stop) of an elevator, the appropriate response | compatibility method with respect to the present condition can also be grasped | ascertained.

  Next, the schedule display operation of the BIM system 1 will be described with reference to FIGS. FIG. 12 is a flowchart showing the schedule display operation of the BIM system 1. FIG. 13 is a diagram illustrating a data structure of inspection / maintenance / repair history information. FIG. 14 is a diagram illustrating a configuration of a schedule display screen displayed on the display unit 114 by the display control unit 102c.

  When the inspection / maintenance / repair of the elevator in the building is performed, the terminal device 400 accepts inspection / maintenance / repair history data from the person in charge of the elevator manufacturer for the elevator that has been inspected / maintained / repaired. The inspection / maintenance / repair history data includes inspection / maintenance / repair history information associated with identification information (part identifier) of BIM parts. The inspection / maintenance / repair history information includes, for example, information on the content / date and time of parts replacement for an elevator installed in a building as shown in FIG.

  The terminal device 400 transmits inspection / maintenance / repair history data to the server device 200 (S31). The server device 200 receives the inspection / maintenance / repair history data (S32), and updates the database such as the inspection / maintenance / repair history database 206d using the received inspection / maintenance / repair history data (S33). . The server apparatus 200 transmits a lifetime life registration request to the terminal apparatus 400 (S34). When the terminal device 400 receives the registration request for the lifetime (S35), it waits for the input of the lifetime. When the lifetime years are input from the user, the terminal device 400 transmits the lifetime years to the server device 200 (S36). When the server apparatus 200 receives the life years (S37), the server apparatus 200 refers to the inspection / maintenance / repair history database 206d of the storage unit 206 and acquires inspection / maintenance / repair history data of the BIM part. The server apparatus 200 creates inspection / maintenance / repair schedule information based on the BIM part (part identifier), the life years input for the BIM part, and the inspection / maintenance / repair history data of the BIM part. (S38). For example, as shown in FIG. 13, for hold ashes, the previous part replacement was performed in March 2014, and the service life was 5 years, so the next part replacement is scheduled for March 2019. Is included in the inspection / maintenance / repair schedule information. The server device 200 transmits the inspection / maintenance / repair schedule information to the PC type elevator monitoring system 100 (S39).

  The PC-type elevator monitoring system 100 receives the inspection / maintenance / repair schedule information (S40), and the building stored in the BIM model database 106a while associating the received BIM parts of the elevator with the inspection / maintenance / repair schedule information. And the integrated BIM model is updated (S41).

  The PC type elevator monitoring system 100 causes the display unit 114 to display a monitoring screen for monitoring a plurality of elevators in accordance with a display request received by the input unit 118 in a state where the monitoring application is being executed (S42). . The monitoring screen may be, for example, a plan view display screen (see FIG. 4), a detailed display screen (see FIG. 7A), or a vertical section display screen (see FIG. 10A).

  The PC type elevator monitoring system 100 displays a monitoring screen until an icon related to the elevator is selected (No in S43) (S42), and when it detects that the icon related to the elevator is selected (Yes in S43), integration is performed. With reference to the BIM model (database), a schedule display screen is displayed on the display unit 114 for the elevator corresponding to the selected icon (S44). The PC type elevator monitoring system 100, for example, obtains the three-dimensional model and inspection / maintenance / repair schedule information of the first elevator from the integrated BIM model (database) in response to the selection operation of the first elevator icon. A schedule display screen 119g as shown in FIG. 14 is generated and displayed on the display unit 114. The schedule display screen 119g includes a three-dimensional display 119g1 of the BIM parts of the elevator and inspection / maintenance / repair schedule information 119g2 and 119g3. When the inspection / maintenance / repair schedule information is information about a part of the elevator, the PC type elevator monitoring system 100 detects a selection operation of a part of the three-dimensional display 119g1 of the BIM part of the elevator and detects the part of the part. The identifier is specified, and inspection / maintenance / repair schedule information corresponding to the part identifier is extracted from the integrated BIM model. For example, according to the selection operation, the PC type elevator monitoring system 100 highlights a part of the three-dimensional display 119g1 (target inspection / maintenance / repair target area) (for example, highlights red, etc.). A part of the inspection / maintenance / repair schedule information can be switched and displayed. As a result, the inspection / maintenance / repair schedule can be confirmed for the elevator or part of the elevator currently being monitored.

  Next, the proposal display operation of the BIM system 1 will be described with reference to FIGS. FIG. 15 is a flowchart showing the proposal display operation of the BIM system 1. FIG. 16 is a diagram showing a data structure of elevator failure history data. FIG. 17 is a diagram showing a data structure of the latest model data of the elevator. FIG. 18 is a diagram showing a data structure of the latest legal data of the elevator.

  The PC type elevator monitoring system 100 generates operation information data and failure history data by acquiring signals from the plurality of monitoring sensors 2-1 to 2-k, and transmits them to the server device 200 (S51). The operation information data includes, for example, information for identifying a part (for example, a part identifier), information for identifying an elevator including the part (elevator identifier), information on the number of elevator users per unit time (number of passengers), unit Number of hall call registrations per hour, number of car call registrations per unit time, average non-response time per unit time, maximum non-response time per unit time, information on operation diagram (for example, location of operation diagram data storage Is information associated with each other. The failure history data is data associated with the identification information (part identifier) of the BIM parts, and includes information on the content / date of failure of the elevator installed in the building as shown in FIG. 16, for example.

  The server device 200 receives operation information data and failure history data (S52), and updates the operation information database 206e, failure history database 206f, and other databases using the received operation information data and failure history data (S53). ).

  On the other hand, when the elevator manufacturer side decides that a proposal for renewal / renovation of an elevator in a building should be made, the terminal device 500 uses the latest model data and the latest legal data on the elevator to be proposed for renewal / renovation. The life years are received from the person in charge of the elevator manufacturer. The latest model data is data associated with identification information (part identifier) of BIM parts, and for example, the latest model of an elevator (for example, an elevator or an escalator) that is a candidate for installation in a building as shown in FIG. Contains information about the model. The information on the latest model of the elevator includes, for example, the model of the elevator, the capacity of the elevator, the transportation capacity of the elevator, and the like. The latest law data is data associated with the identification information (part identifier) of the BIM parts, and includes information on the latest law concerning the elevator as shown in FIG. 18, for example. Information on the latest laws and regulations relating to elevators includes, for example, information on laws and regulations relating to brakes, information on laws and regulations relating to car doors and landing door switches, information on laws and regulations relating to specific distance sensing devices, and information on laws and regulations relating to door-open travel determination devices.

  The terminal device 500 transmits the latest model data, the latest law data, and the life years to the server device 200 (S54). The server apparatus 200 receives the latest model data, the latest law data, and the life years (S55), and updates the databases such as the latest model database 206g and the latest law database 206h using the received latest model data and the latest law data. (S56). The server device 200 creates a template for a renewal / renovation plan proposal for the BIM part based on the BIM part, the life years input for the BIM part, and the related information of the BIM part, and the terminal device It transmits to 500 (S57). Upon receiving the renewal / renovation plan proposal template (S58), the terminal device 500 waits for input of change information for the proposal template. The change information may also include no change information when there is no change to the proposal template. When the change information is input from the user, the terminal device 500 transmits the change information to the server device 200 (S59). Upon receiving the change information (S60), the server apparatus 200 creates a proposal by reflecting the change information in the proposal template (S61). The server apparatus 200 transmits information on the created proposal to the PC elevator monitoring system 100 (S62).

  The PC type elevator monitoring system 100 receives the information of the proposal (S63), associates the BIM part of the elevator with the information of the proposal, incorporates it into the BIM model of the building stored in the BIM model database 106a, and integrates the BIM model. The model is updated (S64).

  The PC type elevator monitoring system 100 causes the display unit 114 to display a monitoring screen for monitoring a plurality of elevators in accordance with a display request received by the input unit 118 while the monitoring application is being executed (S65). . The monitoring screen may be, for example, a plan view display screen (see FIG. 4), a detailed display screen (see FIG. 7A), or a vertical section display screen (see FIG. 10A).

  The PC type elevator monitoring system 100 waits until an icon related to the elevator is selected (No in S66), and when it detects that the icon related to the elevator is selected (Yes in S66), the integrated BIM model (database) is stored. The proposal display screen is displayed on the display unit 114 for the elevator corresponding to the selected and operated icon (S67). The PC type elevator monitoring system 100 extracts, for example, a three-dimensional model and proposal information of the first elevator from the integrated BIM model (database) in response to the selection operation of the first elevator icon. A document display screen is generated and displayed on the display unit 114. The proposal display screen displays the document file of the proposal and displays the three-dimensional model of the elevator on the cover of the document file. The document file of the proposal can be configured to be browsed page by page like an actual book when clicked. This makes it possible to confirm the renewal / renovation proposal for the elevator currently being monitored.

  As described above, in the embodiment, in the BIM system 1, the related information is associated with the information of the BIM part, and the monitoring screen including the three-dimensional display of the BIM part and the related information is displayed in the PC type elevator monitoring system 100. So that Thereby, the visibility of the monitoring screen can be improved while effectively using the related information.

  In the embodiment, the BIM system 1 uses the fact that related information is associated with the information of the BIM parts, and the BIM system 1 considers the failure history of the BIM parts and meets the needs of each customer. Propose renewal / renovation plans. This makes it possible to efficiently make proposals to customers for renewal / renovation plans while effectively using related information.

  Although several embodiments of the present invention have been described, these embodiments are presented by way of example and are not intended to limit the scope of the invention. These novel embodiments can be implemented in various other forms, and various omissions, replacements, and changes can be made without departing from the scope of the invention. These embodiments and modifications thereof are included in the scope and gist of the invention, and are included in the invention described in the claims and the equivalents thereof.

  DESCRIPTION OF SYMBOLS 1 ... BIM system, 102,202,412,512,712 ... Control part, 102b ... Integrated modeling part (integrated modeling means), 102c ... Display control part (display control means), 106,206,416,516,716 ... Storage unit 114, 424, 524, 724 ... display unit, 202b ... elevator modeling unit (elevator modeling means), 202d ... schedule creation unit (schedule creation unit), 202e ... proposal creation unit (suggestion creation unit), 206a ... parts information database (part information storage means), 206b ... key plan database (related information storage means), 206c ... instruction explanation database (related information storage means), 206d ... inspection / maintenance / repair history database (related information storage means) , 206e ... operation information database (related information storage hand ), 206f ... failure history database (related information storage means), 206g ... the latest model database (related information storage means), 206h ... the latest laws and regulations database (related information storage means).

According to one embodiment, a BIM system having a control unit, a storage unit, and a display unit is provided. The storage unit includes BIM model storage means, parts information storage means, and related information storage means. The BIM model storage means stores a BIM model of a building. The part information storage means stores part information related to the BIM parts of the elevator that can be incorporated into the BIM model. The related information storage means stores related information. Related information includes handling instruction information indicating how to handle the elevator, inspection / maintenance / repair history information accumulated during periodic inspection or repair work of the elevator, operation information / failure history information of the elevator handled by the elevator monitoring system And at least one of information on the latest model of the elevator and latest legal information on the elevator. The control unit includes elevator modeling means, integrated modeling means, and display control means. The elevator modeling means creates a BIM part corresponding to the created creation condition using the part information stored in the part information storage means. The integrated modeling means creates the integrated BIM model by associating the created BIM part with the BIM model stored in the BIM model storage means while associating the created BIM part with the related information stored in the related information storage means. The display control unit displays a monitoring screen including a plurality of icons corresponding to the plurality of elevators on the display unit, and displays a detailed screen on the display unit according to an icon selection operation . The detail screen is a detail screen for the elevator corresponding to the selected icon, and is related information associated with the BIM part by the three-dimensional display of the elevator BIM part created by the elevator modeling means and the integrated modeling means. Including.

Claims (9)

A BIM system including a control unit, a storage unit, and a display unit,
The storage unit
BIM model storage means for storing a BIM model of a building;
Parts information storage means for storing parts information related to BIM parts of an elevator that can be incorporated into the BIM model;
Handling instruction information indicating how to handle the elevator, inspection / maintenance / repair history information accumulated during periodic inspection or repair work of the elevator, operation information / failure history information of the elevator handled by the elevator monitoring system, the elevator Related information storage means for storing related information including at least one of the latest model information and the latest legal information on the elevator,
With
The controller is
Elevator modeling means for creating the BIM part corresponding to the input creation condition using the part information stored in the part information storage means;
Integrated modeling means for creating an integrated BIM model by incorporating the created BIM part into the BIM model stored in the BIM model storage means while associating the BIM part with the related information stored in the related information storage means;
A first screen including a three-dimensional display of the BIM part of the elevator created by the elevator modeling unit and the related information associated with the BIM part by the integrated modeling unit is displayed on the display unit. Display control means;
BIM system with The display control means displays a second screen including an icon relating to the elevator on the display unit, and according to a selection operation of the icon relating to the elevator, the three-dimensional display of the BIM parts of the elevator and the BIM The BIM system according to claim 1, wherein the first screen including the related information associated with a part is displayed on the display unit. The second screen is a plan view display screen showing a plurality of icons in a plane arrangement of the elevators,
The display control unit displays, on the display unit, the first screen including a three-dimensional display of the BIM part of the elevator and information regarding the specification of the BIM part in response to a selection operation of the icon of the elevator. The BIM system according to claim 2 to be displayed. The second screen is a detailed display screen showing an operation state in an icon display form for each of the plurality of elevators,
The display control means includes a three-dimensional display of the BIM part of the elevator and handling instruction information indicating how to handle the BIM part according to a selection operation of an icon indicating an operation state of the elevator. The BIM system according to claim 2, wherein one screen is displayed on the display unit. The second screen is a vertical cross-section display screen showing a plurality of icons showing the vertical cross-sectional arrangement of the elevators,
The display control means displays the first screen including a three-dimensional display of the BIM parts of the elevator and information indicating an operation status of the elevator according to a selection operation of the icon of the elevator. The BIM system according to claim 2 to be displayed. The controller is
Based on the BIM part created by the elevator modeling means, the life years input for the BIM part, and the inspection / maintenance / repair history information, inspection / maintenance / repair schedule information for the BIM part is obtained. It further comprises a schedule creation means for creating,
The display control means causes the display unit to display the first screen including a display of an inspection / maintenance / repair target location in the three-dimensional display of the BIM part of the elevator and the schedule information. 2. The BIM system according to 1. The controller is
Proposal creation means for creating a renewal / renovation plan proposal for the BIM part based on the BIM part created by the elevator modeling means, the life years input for the BIM part, and the related information Further comprising
The BIM system according to claim 1, wherein the display control unit displays the proposal created by the proposal creation unit on the display unit. A method executed in a BIM system including a control unit, a storage unit, and a display unit,
The storage unit
BIM model storage means for storing a BIM model of a building;
Parts information storage means for storing parts information related to BIM parts of an elevator that can be incorporated into the BIM model;
Handling instruction information indicating how to handle the elevator, inspection / maintenance / repair history information accumulated during periodic inspection or repair work of the elevator, operation information / failure history information of the elevator handled by the elevator monitoring system, the elevator Related information storage means for storing related information including at least one of the latest model information and the latest legal information on the elevator,
With
Executed by the control unit,
Elevator modeling step of creating the BIM part corresponding to the input creation condition using the part information stored in the part information storage unit;
Integrated modeling for creating an integrated BIM model by incorporating the BIM part created in the elevator modeling step into the BIM model stored in the BIM model storage means while associating it with the related information stored in the related information storage means Steps,
Causing the display unit to display a first screen including a three-dimensional display of the BIM part of the elevator created in the elevator modeling step and the related information associated with the BIM part in the integrated modeling step. A display control step;
Including methods. A program to be executed by a BIM system including a control unit, a storage unit, and a display unit,
The storage unit
BIM model storage means for storing a BIM model of a building;
Parts information storage means for storing parts information related to BIM parts of an elevator that can be incorporated into the BIM model;
Handling instruction information indicating how to handle the elevator, inspection / maintenance / repair history information accumulated during periodic inspection or repair work of the elevator, operation information / failure history information of the elevator handled by the elevator monitoring system, the elevator Related information storage means for storing related information including at least one of the latest model information and the latest legal information on the elevator,
With
In the control unit,
Elevator modeling step of creating the BIM part corresponding to the input creation condition using the part information stored in the part information storage unit;
Integrated modeling for creating an integrated BIM model by incorporating the BIM part created in the elevator modeling step into the BIM model stored in the BIM model storage means while associating it with the related information stored in the related information storage means Steps,
Causing the display unit to display a first screen including a three-dimensional display of the BIM part of the elevator created in the elevator modeling step and the related information associated with the BIM part in the integrated modeling step. A display control step;
A program that executes

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