JP6034455B1 - BIM system and method - Google Patents

Abstract

[PROBLEMS] To obtain a user's elevator and store usage status in a building so that the user-acquisition property of the building having the store and the flow of users can be analyzed before the building is completed. It is an object to provide a system and method. A BIM system converts an integrated BIM model in which a BIM part of an elevator is incorporated into a BIM model of a building including a BIM part of a store into a lightweight integrated BIM model, and performs an operation including the lightweight integrated BIM model. Usage information indicating the usage status of the light weight integrated BIM model operated on the screen, including at least path information indicating a movement route to the BIM part of the store using the BIM part of the elevator as a moving means by the user Get usage information. [Selection] Figure 2

Description

  Embodiments of the present invention relate to BIM systems and methods.

  Conventionally, the ability to attract customers and the flow of users of a building having a store could only be analyzed based on the aggregated data after completion of the building. Therefore, in recent years, by using the BIM model of a 3D-shaped building, the building is virtually completed before the building is completed, and the store in the building is virtually started. There was a need for technology to confirm the use of buildings after completion. In addition, not only before the building is completed but also after it is completed, the BIM model of the 3D-shaped building is used to search the route to the destination, and the building manager can simulate the store layout. It is desirable to be able to do it.

Japanese Patent No. 4575078

  The problem to be solved by the present embodiment is that the user's elevator and store in the building can be analyzed before the completion of the building, such as the ability to attract customers and the flow of users of the building having the store It is to provide a BIM system and method capable of acquiring the usage status of the system.

The BIM system of the embodiment is configured by connecting a server device and a terminal device so that they can communicate with each other. The server device includes at least a control unit and a storage unit. The terminal device includes at least a control unit, a display unit, and an input unit. Here, the storage unit of the server device includes a BIM model storage unit and a parts information storage unit. The BIM model storage means stores the BIM model of the building including the BIM parts of the store. The part information storage means stores part information related to a part for creating a BIM part of an elevator that can be incorporated into a BIM model of a building. In addition, the control unit of the server device includes elevator modeling means, integrated modeling means, integrated BIM model conversion means, and information distribution means. The elevator modeling means creates elevator BIM parts corresponding to the creation conditions input by the designer using the part information stored in the part information storage means. The integrated modeling means creates an integrated BIM model corresponding to the elevator built-in building in which the elevator BIM parts created by the elevator modeling means are incorporated in the BIM model of the building stored in the BIM model storage means. . The integrated BIM model conversion means converts the integrated BIM model into a light weight integrated BIM model based on the integrated BIM model created by the integrated modeling means. The information distribution unit transmits the light weight integrated BIM model converted by the integrated BIM model conversion unit to the terminal device. In addition, the control unit of the terminal device includes information acquisition means, operation screen generation means, display control means, usage information acquisition means, and information provision means. The information acquisition unit receives the light weight integrated BIM model transmitted from the server device by the information distribution unit. The operation screen generation unit generates an operation screen including the light weight integrated BIM model received by the information acquisition unit. The display control unit displays the operation screen generated by the operation screen generation unit on the display unit. The usage information acquisition means is usage information indicating the usage status of the light weight integrated BIM model operated on the operation screen by the user via the input unit, and the user uses the BIM part of the elevator as the moving means. Usage information including at least route information indicating a movement route to the BIM part of the store is acquired. The information providing means transmits the usage information acquired by the usage information acquiring means to the server device. Further, the control unit of the server device includes an information receiving unit, an analysis result creating unit, and an integrated BIM model changing unit. The information receiving means receives usage information transmitted from the terminal device. The analysis result creating means creates an analysis result based on the received usage information. The integrated BIM model changing unit changes at least one of the elevator BIM part and the store BIM part included in the integrated BIM model created by the integrated modeling unit based on the received usage information.

FIG. 1 is a conceptual diagram showing an example of a building design book and a BIM model. FIG. 2 is a diagram for explaining the outline of the BIM system in the embodiment. FIG. 3 is a block diagram illustrating an example of a configuration of the BIM system in the embodiment. FIG. 4 is a diagram illustrating an example of a BIM part of an elevator. FIG. 5 is a diagram illustrating an example of an integrated BIM model corresponding to an elevator built-in building in a state where BIM parts of the elevator are incorporated into a BIM model of a building. FIG. 6 is a diagram illustrating an example of an operation screen when inputting search conditions. FIG. 7 is a diagram illustrating an example of an operation screen when the user moves to the store in the light weight integrated BIM model. FIG. 8 is a flowchart illustrating an example of processing executed in the BIM system according to the embodiment.

  Embodiments of a BIM system and method according to the present invention will be described below in detail with reference to the drawings. In addition, this invention is not limited by this embodiment.

  Here, with reference to FIG. 1, an outline of BIM (building information modeling) used in the embodiment will be described. FIG. 1 is a conceptual diagram showing an example of a building design book and a BIM model. FIG. 1 shows a difference between a design method based on a building design book and a design method based on BIM. As shown on the left side of FIG. 1, in the design method based on the building design document, each industry involved in building design individually creates specialized drawings, so each must have relevance and consistency. There is. That is, in a design method using a building design book, for example, the related design book needs to be corrected, and its consistency must be checked. On the other hand, the BIM design method shown on the right side of FIG. 1 can share a three-dimensional model of a building (that is, a BIM model of a building) that is data for the entire building in each industry. Relevance and consistency can be checked on the data.

  Hereinafter, the configuration and processing of this embodiment will be described in detail.

[Embodiment]
This embodiment will be described below with reference to FIGS. In addition, the form of function distribution on the server side and the terminal side in the BIM system exemplified in this embodiment is not limited to the following, and functionally or physically distributed in arbitrary units within a range where the same effects and functions can be obtained. Can be integrated and configured.

  First, an outline of the BIM system in the present embodiment will be described with reference to FIG. FIG. 2 is a diagram for explaining the outline of the BIM system in the embodiment.

In this embodiment, first, a building designer creates a 3D-shaped building BIM model (in FIG. 2, an integrated BIM model including an elevator BIM part and a store BIM part) using 3D CAD or the like. To do. This integrated BIM model is a 3D model of the entire building including rooms, corridors, stairs, elevators, and the like. When the architect of the building saves the integrated BIM model in the server device 200, the building designer converts the data into a 3D-shaped building database model (in FIG. 2, a reduced-weight integrated BIM model) with a reduced data capacity. The user of the building obtains this lightweight integrated BIM model via the Internet using the terminal device 100 such as the smartphone 100-1, the tablet 100-2, or the personal computer 100-3. Then, the user of the building virtually uses the light weight integrated BIM model, which is a 3D model of the building before completion, in the same manner as when actually visiting the building and using it. When a user of a building virtually uses this light weight integrated BIM model, route information indicating the route that the user of the building has moved in the light weight integrated BIM model, the order of shops to visit, etc. The data is stored in the server device 200 as data (usage information in the present embodiment) indicating the usage status of the building. As a result, the designer of the building, based on the available information that has been saved, layout and store capable of moving the building within the user is less moving distance of the buildings, elevators and escalators, etc. of the elevator of the best Can be proposed during building design and business planning.

  In addition, as shown in FIG. 2, since the BIM parts of the store including product information such as photos and prices and sizes related to the products provided by the store are arranged in the light weight integrated BIM model, the use of the building The person can also make a purchase reservation for the product. In this way, it is possible to virtually operate a store in a building using the light weight integrated BIM model. Here, since the information on the product that the user of the building has reserved for purchase from the store is stored in the server device 200, the architect of the building, the store branch of the store, etc. can also perform the latest trend analysis on the product. It is. Therefore, it is possible to determine store plans and product purchases before the building is completed. It is also possible to connect the purchase information of the product to the purchase system and determine the number of products purchased at the start of business.

  In addition, based on the usage information stored in the server device 200 (for example, usage status data such as the route traveled by the building user and the order of the stores visited), the optimal store product layout, layout, and design. Can be proposed. Furthermore, the store occupant can simulate the actual store arrangement by moving and arranging the products to be displayed in the store in the light weight integrated BIM model. Furthermore, when operating virtually using the light weight integrated BIM model, the elevator equipment, lighting, and the like are obtained from the usage information stored in the server device 200 (for example, data such as the staying time and travel route of the building user). It is also possible to calculate the optimum specifications of building equipment such as air conditioners and power supplies. The architect of the building can also calculate the running cost at the stage before completion by feeding back the result to the design of the entire building.

  Furthermore, in the BIM system in the present embodiment, even after the building is completed, the user of the building can use the light weight integrated BIM model on the operation screen. For example, it is possible to provide a route search service based on usage information (for example, product purchase history and travel route) acquired when a building user uses a light weight integrated BIM model on the operation screen. is there. For example, a user of a building uses the terminal device 100 to input a search condition such as a purpose (for example, a toilet, a shoe store, moving to an upper floor), a destination (for example, a store name) or a desired product. In addition, it is possible to obtain a route search result. At that time, it is also possible to alleviate the congestion in the building by storing data such as search conditions and usage information of all the users and providing route guidance that is not crowded. In addition, when a user of a building visits the building, it is possible to present the optimal store visit route by inputting all the purposes such as what to do with the building or desired products into the terminal device 100. Is possible.

  The details of the configuration and processing of the BIM system in this embodiment will be described below.

[Configuration of BIM System in this Embodiment]
Next, an example of the configuration of the BIM system in the present embodiment will be described below with reference to FIG. FIG. 3 is a block diagram showing an example of the configuration of the BIM system in the present embodiment, and conceptually shows main parts of the configuration.

  As shown in FIG. 3, the BIM system of the embodiment schematically includes a three-dimensional model of an elevator (ie, a BIM part of an elevator) and a three-dimensional model of a store (ie, a BIM part of a store). A server device 200 capable of distributing information such as a light weight integrated BIM model that reduces the data capacity of the integrated BIM model and a terminal device 100 equipped with one or a plurality of BIM applications are communicably connected. The Here, as illustrated in FIG. 3, the communication includes, as an example, remote communication such as wired / wireless communication via the network 300. Each part of these BIM systems is communicably connected via an arbitrary communication path.

  As shown in FIG. 3, in the BIM system of the present embodiment, the server device 200 schematically includes at least a control unit 202 and a storage unit 206, and the terminal device 100 includes an output unit (display unit 114 and The audio output unit 116), the input unit 118, the control unit 102, and the storage unit 106 are provided at least.

[Configuration of Server Device 200]
Here, in FIG. 3, the server device 200 is connected to the terminal device 100 used by the building user and the external device 400 used by the building designer via the network 300 via the communication control interface unit 204. The control unit 202 and the storage unit 206 are connected to be communicable with each other. The control unit 202 is a control unit that 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. Has the function to perform. That is, the communication control interface unit 204 has a function of communicating data with the terminal device 100 or the like via a communication line. The storage unit 206 is a fixed disk device such as an HDD (Hard Disk Drive) or a storage means such as an SSD (Solid State Drive), and stores various databases and tables (BIM model database 206a, parts information database 206b, etc.). .

  Among these components of the storage unit 206, the BIM model database 206a is a BIM model storage unit that stores a BIM model of a building including BIM parts of a store. In the present embodiment, the BIM model database 206a stores a BIM model of a building including a store BIM part designed in advance by a designer. The BIM model includes, but is not limited to, structural information such as building shape, spatial relationship, geographic information, quantity and characteristics of building members, member strength, natural frequency, and useful life. In addition, the structural information includes information such as the building usage, building size, number of floors, floor name, floor height, usage of each floor, floor personnel, the number of elevators that can be calculated from the occupied area, etc. Also good. Furthermore, the structural 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. In the present embodiment, the BIM parts of a store are assumed to include product information related to products provided by the store.

  The parts information database 206b is part information storage means for storing part information relating to parts for creating a BIM part of an elevator that can be incorporated into a BIM model of a building. In the present embodiment, the elevator is a concept including an elevator and a passenger conveyor, and the passenger conveyor includes an escalator and a moving sidewalk. Here, the parts information includes all information necessary for the designer to design the BIM parts of the elevator. 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 In addition to information such as member strength, price, dimensions, mass, color, material, and natural frequency of the necessary components that make up the product, delivery date, inventory status, installation time, finishing material, service life, manufacturer information, product model number, etc. However, it is not limited to the above.

  More specifically, in the present embodiment, the part information includes, for example, size information of the BIM part that is referred to when the BIM part is incorporated into the BIM model by the control unit 202 described later. 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 as in the present embodiment, the hoistway, the car, the counterweight, the main rope, the hoisting machine, the guide rail, the landing hall related products Machine room, control panel, power supply equipment, 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. The part information includes, for example, setting parameters used when the control unit 202 changes the BIM part. 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.

  Moreover, in this embodiment, the parts information database 206b may include part information related to parts for creating store BIM parts, in addition to parts information related to parts for creating BIM parts for elevators. . The parts information regarding the parts for creating the elevator BIM parts and / or the store BIM parts are referred to as appropriate when the integrated BIM model is changed by the control unit 202 described later.

  The usage information database 206c is usage information storage means for storing usage information described later provided by the terminal device 100.

  The control unit 202 has 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 202 performs the information processing for performing various processes with these programs. The control unit 202 is functionally conceptually configured as an information reception unit 202a, an elevator modeling unit 202b, an integrated modeling unit 202c, an integrated BIM model conversion unit 202d, an information distribution unit 202e, an integrated BIM model change unit 202f, and an analysis result creation unit. 202g is provided.

  Among these, the information receiving unit 202 a is a creation condition receiving unit that receives a creation condition transmitted from the external device 400. Here, the creation condition is a condition indicating the specifications of the elevator desired by the architect of the building. That is, the creation condition specifies a condition for creating a BIM part of an elevator that can be incorporated into a BIM model of a building. The creation conditions may include, for example, at least one of model, color, material, desired price, delivery date, designer's preference, and the like. The creation conditions may be input by the designer via the input unit in the external device 400, or may be read from an external storage device (not shown) in which the creation conditions are stored in advance. There may be. In addition, the information receiving unit 202a also has a function of receiving usage information to be described later from the terminal device 100.

  The elevator modeling unit 202b is an elevator modeling unit that creates elevator BIM parts corresponding to the creation conditions received by the information receiving unit 202a using the part information stored in the part information database 206b. The elevator modeling unit 202b creates, for example, an elevator three-dimensional BIM part as shown in FIG. Here, FIG. 4 is a figure which shows an example of the BIM part of an elevator. The left side of FIG. 4 is a BIM part of an elevator composed of units such as a hoistway, a car, a guide rail, and the right side of FIG. 4 is an example of a platform home related product from a door unit of a doorway. It is a BIM part of an elevator.

  Here, the elevator modeling unit 202b may create BIM parts for a plurality of elevators that satisfy the creation conditions so that the designer of the building can select them while confirming them on the screen. For example, the elevator modeling unit 202b determines the building from the outline, scale, installation position, power supply facility capacity, etc. of the building based on the structure information of the BIM model based on the creation condition received by the information receiving unit 202a. Create one or more BIM parts for elevators that can be installed on objects. Further, the elevator modeling unit 202b may automatically optimize and create the BIM parts according to the delivery date, price, or preference based on the creation conditions received by the information receiving unit 202a. For example, the elevator modeling unit 202b automatically creates a plurality of BIM parts of the elevator that can be installed in order from the earliest delivery date when the designer selects the delivery date priority 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 designer. Good. When the user's preference is set by the designer, 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 integrated modeling unit 202c also integrates the BIM part of the elevator created by the elevator modeling unit 202b into the elevator built-in building in a state in which the BIM part of the elevator is incorporated in the BIM model of the building stored in the BIM model database 206a. It is an integrated modeling tool for creating models. For example, the integrated modeling unit 202c creates an integrated BIM model corresponding to the elevator built-in building in a state where the elevator BIM parts are incorporated in the building BIM model as shown in FIG. Here, FIG. 5 is a diagram illustrating an example of the integrated BIM model corresponding to the elevator built-in building in a state where the BIM parts of the elevator are incorporated into the BIM model of the building. FIG. 5 shows a part of the integrated BIM model showing the installation state of the elevator when the elevator built-in building is completed. Here, the integrated modeling unit 202c may store the created integrated BIM model in the storage unit 206 to construct an integrated BIM model database (not shown).

  The integrated BIM model conversion unit 202d is an integrated BIM model conversion unit that converts the integrated BIM model into a lightweight integrated BIM model based on the integrated BIM model created by the integrated modeling unit 202c. For example, as shown in FIG. 2, the integrated BIM model conversion unit 202d converts the integrated BIM model into a reduced integrated BIM model by reducing the data capacity through data conversion.

  The information distribution unit 202e is an information distribution unit that transmits the weight-reduced integrated BIM model converted by the integrated BIM model conversion unit 202d to the terminal device 100. Here, the information distribution unit 202e has a function of transmitting information such as usage information and analysis results to be described later to the terminal device 100 in response to a request from the user of the terminal device 100.

  Further, the integrated BIM model changing unit 202f is based on the below-described usage information transmitted from the terminal device 100, and includes the elevator BIM parts and the store BIM parts included in the integrated BIM model created by the integrated modeling unit 202c. This is integrated BIM model changing means for changing at least one of them.

  The analysis result creation unit 202 f is an analysis result creation unit that creates an analysis result based on usage information described later transmitted from the terminal device 100.

[Configuration of Terminal Device 100]
In FIG. 3, the terminal device 100 is, for example, an information processing device such as a desktop or notebook personal computer that is generally commercially available, a mobile terminal device such as a mobile phone, a smartphone, a PHS, and a PDA. The terminal device 100 may be equipped with an Internet browser or the like, or may be equipped with a BIM application or the like. The terminal device 100 may include an output unit including at least the display unit 114 and the audio output unit 116. The terminal device 100 may include an input unit 118 that performs data input and the like.

  In FIG. 3, the display unit 114 may be 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 may be sound output means (for example, a speaker) that outputs sound information as sound. The input unit 118 may be, 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.

  In FIG. 3, a 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 between the terminal device 100 and the network 300. Has a function of performing 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 terminal device 100 and the server device 200, the external device 400, and an external device or an external system (for example, an external database device) (not shown). It may be a line network (such as a mobile terminal line network and a general telephone line network), an intranet, or power line communication (PLC).

  In FIG. 3, the storage unit 106 is 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. It is a storage means and may store various databases, files, and tables (lightweight integrated BIM model database 106a and the like). Here, the storage unit 106 may temporarily store various files and the like. In addition, although not shown, the storage unit 106 also stores network data extracted from the light weight integrated BIM model. In this embodiment, the network data has a data structure generally used for route search. For example, the network data corresponds to a node corresponding to each base such as a store and a moving means or a passage connecting each node. It is data that consists of links.

  Among these, the light weight integrated BIM model database 106 a is a light weight integrated BIM model storage unit that stores the light weight integrated BIM model received from the server device 200.

  In FIG. 3, the control unit 102 has 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 102 performs the information processing for performing various processes by these programs. In terms of functional concept, the control unit 102 includes an information acquisition unit 102a, an operation screen generation unit 102b, a display control unit 102c, a usage information acquisition unit 102d, an information provision unit 102e, and a route search unit 102f.

  Among these, the information acquisition unit 102 a is an information acquisition unit that receives the light weight integrated BIM model transmitted from the server device 200. Here, the information acquisition unit 102 a also has a function of receiving the usage information stored in the usage information database 206 c of the server device 200 from the server device 200. In addition, the information acquisition unit 102 a also has a function of receiving an analysis result from the server device 200.

  The operation screen generation unit 102b is an operation screen generation unit that generates an operation screen including the light weight integrated BIM model received by the information acquisition unit 102a. An example of the operation screen in this embodiment will be described later.

  The display control unit 102 c is a display control unit that displays the operation screen generated by the operation screen generation unit 102 b on the display unit 114. In the present embodiment, the display control unit 102c may display the product information associated with the BIM parts of the store on the display unit 114 on the operation screen generated by the operation screen generation unit 102b. The display control unit 102c may display the result of the route search performed by the route search unit 102f described later on the operation screen.

  The usage information acquisition unit 102d is usage information indicating the usage status of the light weight integrated BIM model operated on the operation screen by the user via the input unit 118, and the user moves the BIM part of the elevator. It is usage information acquisition means for acquiring usage information including at least route information indicating a movement route to a BIM part of a store used as a means. In the present embodiment, the usage information acquisition unit 102d may acquire the purchase information of the product that is input according to the reservation purchase operation for the product performed on the operation screen by the user in the usage information. . In addition, the usage information acquisition unit 102d may acquire the usage information by including a later-described visit plan selected by the user on the operation screen.

  The information providing unit 102 e is an information providing unit that transmits the usage information acquired by the usage information acquiring unit 102 d to the server device 200.

  In addition, the route search unit 102f can reduce the weighted integrated BIM based on the usage information received by the information acquisition unit 102a and the search condition including at least the destination or the purpose input by the user via the input unit 118. This is route search means for searching for a route in the model. Here, the search condition may further include product information. In the present embodiment, the route search unit 102f predicts the congestion state of the BIM parts of the elevator based on the search conditions input by all users who have performed route search in the light weight integrated BIM model, and the congestion state A route search that avoids the above may be performed. Further, the route search unit 102f may perform a route search indicating a store visit plan recommended for the target user in the light weight integrated BIM model based on the analysis result received by the information acquisition unit 102a. .

  Here, an example of the operation screen in the present embodiment will be described with reference to FIGS. 6 and 7. FIG. 6 is a diagram illustrating an example of an operation screen when inputting search conditions. FIG. 7 is a diagram illustrating an example of an operation screen when the user moves to the store in the light weight integrated BIM model. 6 and 7 are operation screens that function as input screens when using a building user's terminal device 100 (for example, a mobile terminal or a tablet installed in a building). When the user of the building inputs necessary information on the operation screen as shown in FIG. 6 displayed on the terminal device 100 of the user, FIG. 7 functions as a usage screen for using the light weight integrated BIM model. The operation screen is displayed. Here, in the operation screen of FIG. 6, since it functions as an input screen, the search condition input fields 1 to 3 are displayed. A purpose can be input as a search condition in the input field 1, and a product to be purchased can be input as a search condition in the input field 2. Furthermore, other items can be entered in the input field 3 as search conditions. The user enters the search condition in the input field and selects the search start button 4 to transition to the operation screen of FIG. The operation screen shown in FIG. 7 represents the building in 3D, and can be used to display the route to the destination by operating buttons 5 to 7 or to manually walk through the building. It has become. Here, in the operation screen of FIG. 7, the state in the lightweight integrated BIM model is expressed from the viewpoint of allowing the user to experience the experience of actually visiting the building and purchasing the product at the store. . Button 5 in FIG. 7 is a route reproduction button. When the user selects the button 5, a route to the destination is displayed on the operation screen of FIG. 7, and route guidance is executed. A button 6 in FIG. 7 is a pause button, and is a button for temporarily stopping route guidance. A button 7 in FIG. 7 is a manual operation mode button. When the user selects the button 7, the user can freely move in the building in accordance with the operation of the input unit 118 on the operation screen of FIG. Experience the experience.

  Above, description of an example of a structure of the BIM system in this embodiment is finished.

[Process of BIM system in this embodiment]
Next, an example of processing of the BIM system in the present embodiment configured as described above will be described in detail with reference to FIG. FIG. 8 is a flowchart illustrating an example of processing executed in the BIM system according to the embodiment.

  As shown in FIG. 8, the elevator modeling unit 202b of the server device 200 uses the part information stored in the parts information database 206b for the BIM part of the elevator corresponding to the creation condition input by the architect of the building. Create (step S1). Then, the integrated modeling unit 202c of the server device 200 includes the elevator BIM parts created by the processing of the elevator modeling unit 202b in step S1 in the building BIM model stored in the BIM model database 206a. An integrated BIM model corresponding to the built-in building is created (step S2). Then, the integrated BIM model conversion unit 202d of the server device 200 converts the integrated BIM model into a light weight integrated BIM model based on the integrated BIM model created by the processing of the integrated modeling unit 202c in Step S3 (Step S3). ). And the information delivery part 202e of the server apparatus 200 transmits the weight-reduction integrated BIM model converted by the process of the integrated BIM model conversion part 202d in step S3 to the terminal device 100 (step S4).

  And the information acquisition part 102a of the terminal device 100 receives the weight-reduction integrated BIM model transmitted from the server apparatus 200 by the process of the information delivery part 202e in step S4 (step S5). Then, the operation screen generation unit 102b of the terminal device 100 generates an operation screen including the light weight integrated BIM model received by the processing of the information acquisition unit 102a in step S5 (step S6). Then, the display control unit 102c of the terminal device 100 displays the operation screen generated by the process of the operation screen generation unit 102b in Step S6 on the display unit 114 (Step S7).

  And the control part 102 of the terminal device 100 determines whether there exists operation of the user of the building with respect to the operation screen displayed on the display part 114 by the process of the display control part 102c in step S7 (step S8). . In step S <b> 8, a user operation is detected via the input unit 118.

Here, in Step S8, when it judges with control part 102 of terminal unit 100 having operation of a user of a building to an operation screen (Step S8: Yes), it shifts to processing of the following Step S9. On the other hand, in step S8, when the control unit 102 of the terminal device 100 determines that there is no operation of the building user on the operation screen (step S8: No),
The process returns to step S8.

  The usage information acquisition unit 102d of the terminal device 100 is usage information indicating the usage status of the lightweight integrated BIM model operated on the operation screen by the user via the input unit 118 in step S8. To obtain usage information including at least route information indicating a moving route to the BIM part of the store using the BIM part of the elevator as the moving means (step S9). In step S <b> 9, the usage information acquisition unit 102 d may acquire the purchase purchase information of the product input according to the reservation purchase operation for the product performed on the operation screen by the user in the usage information. In addition, the usage information acquisition unit 102d may acquire the usage information by including a later-described visit plan selected by the user on the operation screen. And the information provision part 102e of the terminal device 100 transmits the usage information acquired by the process of the usage information acquisition part 102d in step S9 to the server apparatus 200 (step S10).

  Then, the information receiving unit 202a of the server device 200 receives the usage information transmitted by the processing of the information providing unit 102e in step S10 from the terminal device 100 (step S11). Then, the analysis result creation unit 202d of the server device 200 creates an analysis result based on the usage information received by the processing of the information reception unit 202a in step S11 (step S12). Then, the integrated BIM model changing unit 202f, based on the usage information received by the processing of the information receiving unit 202a, the BIM parts of the elevator included in the integrated BIM model created by the processing of the integrated modeling unit 202c in step S2, and At least one of the store BIM parts is changed (step S13). Thereafter, this process is terminated.

  In this embodiment, after performing the processing of steps S1 to S13 described above, if it is determined in step S8 that there is a user operation (step S8: Yes), the route search of the terminal device 100 is performed. The unit 102f includes the usage information received by the processing of the information acquisition unit 102a and the search condition including at least the destination or the purpose input by the user via the input unit 118. A route search at may be performed. Here, the search condition may further include product information. Furthermore, in this case, the route search unit 102f predicts the congestion status of the BIM parts of the elevator based on the search conditions input by all users who have performed route search in the light weight integrated BIM model. You may perform the route search which avoids a congestion condition. Further, the route search unit 102f may perform a route search indicating a store visit plan recommended for the target user in the light weight integrated BIM model based on the analysis result received by the information acquisition unit 102a. .

  Above, description of an example of the process of the BIM system in embodiment is finished.

  For example, the following effects can be obtained by the BIM system according to the present embodiment configured as described above. Conventionally, the ability to attract customers and the flow of users of a building having a store could only be analyzed based on the aggregated data after completion of the building, but according to the BIM system in this embodiment, For example, by using the light weight integrated BIM model on the operation screen, the building is virtually completed before the building is completed, and the store in the building is virtually started. It becomes possible to confirm the use situation of the building afterwards. In addition, not only before the building is completed but also after it is completed, the lightweight integrated BIM model can be used on the operation screen to search the route to the destination, and the building manager can simulate the store layout. Can be performed.

  In addition, the BIM system in the present embodiment has a function of registering product information such as product photos, prices, and sizes for each store in the light weight integrated BIM model corresponding to the building before completion. Thereby, according to the BIM system in this embodiment, a light weight integrated BIM model is distributed to the building user, and the building is virtually operated to the building user via the terminal device 100. Can be made. For example, a user of a building can take a walk in the light weight integrated BIM model and simultaneously purchase a product in the light weight integrated BIM model. The purchased product information is included in the usage information as virtual business information and stored in the database of the server device 200. As a result, building designers, store occupants, etc. can examine the latest trend analysis and store plans and product purchases in detail before completion. Further, according to the BIM system in the present embodiment, the architect of the building can use the store information for each store in the integrated BIM model based on the usage information as virtual business information stored in the database of the server device 200. The layout and design can be proposed, and the store occupant can move and arrange the products to be displayed in the store in the integrated BIM model, and can execute the store sales plan.

  In addition, since the BIM system in the present embodiment has a function of totaling usage information acquired when business is virtually started at a store in the light weight integrated BIM model, according to the BIM system in the present embodiment. It can also be connected to a purchasing system for supplies and products required at the time of actual business start-up. Furthermore, since the BIM system in the present embodiment has a function that can verify the maintenance management of the building from the usage information acquired when the business is virtually started in the store in the light weight integrated BIM model, According to the BIM system in the embodiment, it is possible to feed back the optimum specifications of building equipment such as elevator equipment, lighting, air conditioning, and power supply device to the design, and it is possible to calculate the running cost before completion.

  Furthermore, according to the BIM system in the present embodiment, after the building is completed, the use of the building is obtained from the usage information as past performance data acquired when the building is virtually operated using the light weight integrated BIM model. When a person inputs a search condition such as a destination (store name, etc.) and a purpose (toilet, shoe store, etc.) from his / her terminal device 100 (for example, a mobile terminal or a fixed tablet installed in a building). It is possible to provide a route search service to the purpose. At that time, the search condition input when the search is performed is acquired and stored as data of all users. And according to the BIM system in this embodiment, based on the information, the congestion situation of a passage and an elevator is grasped, and the congestion in a building is enabled by guiding a route that is not crowded. . In addition, for each store in the lightweight integrated BIM model, product information such as product photos, prices, sizes, etc. is posted, and product information in the building is managed collectively, so users of the building can It is also possible to search from the desired product, price, color, etc., and to search the route to the store of the product.

  Furthermore, the BIM system according to the present embodiment uses the weight-reduced integrated BIM model after the building is completed and uses the history of the target user from the usage information as past performance data acquired when operating virtually. Based on the above, it is possible to analyze a store having a recommended product and present a recommended store visit route to the terminal device 100 of the user of the building. Then, according to the BIM system in the present embodiment, the target user reserves a store visit based on the store visit route, whereby the visit plan is registered in the database, and the target user's terminal device of each store is registered with the target user. Visit information is provided. Thereby, the store side can utilize visit information as visitor information and can improve customer service, and the waiting time in each store can be reduced for the user side. In addition, the BIM system according to the present embodiment has a function of assuming an elevator usage schedule based on a store visit route of a reserved target user and reflecting it in an equipment operation plan. Thereby, it is possible to preferentially guide the user having the terminal device 100 that has made the advance reservation to an elevator such as an elevator for exclusive operation, and the waiting time for the elevator of the user can be reduced. Furthermore, if the elevator has a function capable of communicating with the terminal device 100, when the user approaches the elevator platform, a call can be automatically registered and the user can be guided to the floor of the usage schedule.

[Other Embodiments]
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.

  For example, in the above-described embodiment, an escalator or an elevator has been described as an example of an elevator, but the present invention can be similarly applied to a passenger conveyor such as a moving sidewalk.

  In addition, among the processes described in the embodiment, all or a part of the processes described as being automatically performed can be manually performed, or all of the processes described as being manually performed can be performed. Alternatively, a part can be automatically performed by a known method.

  In addition, the processing procedures, control procedures, specific names, information including parameters such as registration data and search conditions for each processing, screen examples, and database configurations shown in the above documents and drawings, unless otherwise specified. Can be changed arbitrarily.

  Further, regarding the terminal device 100 and the server device 200, each illustrated component is functionally conceptual, and does not necessarily need to be physically configured as illustrated.

  For example, the processing functions provided in each device of the terminal device 100 and the server device 200, in particular, the processing functions performed by the control unit 102 and the control unit 202, all or any part thereof are CPU (Central Processing Unit). Alternatively, it may be realized by a program interpreted and executed by the CPU, or may be realized as hardware by wired logic. The program is recorded on a recording medium to be described later, and is mechanically read by the terminal device 100 and the server device 200 as necessary. In other words, in the storage unit 106 and the storage unit 206 such as a ROM or an HDD, computer programs for giving various instructions to the CPU in cooperation with an OS (Operating System) are recorded. This computer program is executed by being loaded into the RAM, and constitutes a control unit in cooperation with the CPU.

  The computer program may be stored in an application program server connected to the terminal device 100 and the server device 200 via an arbitrary network 300, and the computer program is downloaded in whole or in part as necessary. It is also possible.

  Further, the program according to the present invention may be stored in a computer-readable recording medium, or may be configured as a program product. Here, the “recording medium” means a memory card, USB memory, SD card, flexible disk, magneto-optical disk, ROM, EPROM, EEPROM, CD-ROM, MO, DVD, and Blu-ray (registered trademark). It includes any “portable physical medium” such as Disc.

  The “program” is a data processing method described in an arbitrary language or description method, and may be in any format such as source code or binary code. The “program” is not necessarily limited to a single configuration, but is distributed in the form of a plurality of modules and libraries, or in cooperation with a separate program represented by an OS (Operating System). Including those that achieve the function. Note that a well-known configuration and procedure can be used for a specific configuration for reading a recording medium, a reading procedure, an installation procedure after reading, and the like in each device described in the embodiment.

  Various databases and the like stored in the storage unit 106 and the storage unit 206 (for example, a light weight integrated BIM model database 106a, a BIM model database 206a, a parts information database 206b, a usage information database 206c, etc.) are stored in a memory such as a RAM or a ROM. A storage means such as a device, a fixed disk device such as a hard disk, a flexible disk, and an optical disk, and stores various programs, tables, databases, web page files, and the like used for various processes and website provision.

  The terminal device 100 and the server device 200 may be configured as an information processing device such as a known personal computer or workstation, or may be configured by connecting an arbitrary peripheral device to the information processing device. . Further, the terminal device 100 and the server device 200 may be realized by installing software (including programs, data, and the like) that causes the information processing apparatus to realize the method of the present invention.

  Furthermore, the specific form of distribution / integration of the devices is not limited to that shown in the figure, and all or a part of them may be functional or physical in arbitrary units according to various additions or according to functional loads. Can be distributed and integrated. That is, the above-described embodiments may be arbitrarily combined and may be selectively implemented.

  According to the BIM system and the method according to the embodiment described above, the use in the building so that the customer-collectability of the building having the store and the flow line of the user can be analyzed before the completion of the building. It is possible to acquire the usage status of the person's elevator and store.

DESCRIPTION OF SYMBOLS 100 Terminal device 102 Control part 102a Information acquisition part 102b Operation screen generation part 102c Display control part 102d Usage information acquisition part 102e Information provision part 102f Path search part 104 Communication control interface part 106 Storage part 106a Light weight integrated BIM model database 108 Input / output Control interface unit 114 Display unit 116 Audio output unit 118 Input unit 200 Server device 202 Control unit 202a Information reception unit 202b Elevator modeling unit 202c Integrated modeling unit 202d Integrated BIM model conversion unit 202e Information distribution unit 202f Integrated BIM model change unit 202g Analysis result Creation unit 204 Communication control interface unit 206 Storage unit 206a BIM model database 206b Parts information database 206c Usage information database Scan 300 network 400 external devices

Claims (7)

At least comprising a server device and a control unit and a storage unit, and a control unit at least provided with a terminal device and an input unit and a display unit, a BIM system that communicably connects the memory before Symbol server Department stores and BIM model storage means for storing BIM models of buildings including BIM parts store shop, the part information on the part for creating a pre-Symbol BIM parts incorporable elevator to BIM model part includes an information storage means, and the control unit of the previous SL server device, the BIM parts of the elevator corresponding to create conditions input by the designer, the part information stored in the part information storing unit and elevator modeling means for creating with the BIM parts of the elevator that are created by pre-Symbol elevator modeling means, come to the BIM model storage means And integrated modeling means for creating an integrated BIM model corresponding to the elevator built buildings in the state incorporated in the BIM models, based on the integrated BIM model created by the previous SL integrated modeling means, the integrated BIM model comprising an integrated BIM model converting means for converting the weight integration BIM model, and information distribution means for transmitting to the terminal device the converted the lightweight integrated BIM model by prior Symbol integrated BIM model converting means, before Symbol wherein the control unit, an information acquisition means for receiving the lighter integrated BIM model transmitted by the information distribution unit before Symbol server device, the weight integration BIM model received by previous SL information acquisition means of the terminal device It generates an operation screen including the operation screen generation means and, the operation screen generated by the previous SL operation screen generation means Display control means for displaying on the display unit, a use information indicating usage of the lighter integrated BIM model manipulated on the operation screen via the input unit by a Subscriber, by the user and usage information acquiring means for acquiring the usage information including at least path information indicating a movement route to BIM parts of the store that uses the moving means BIM parts of the elevator, said acquired by pre Symbol usage information acquiring means comprising an information providing unit configured to transmit the usage information to the server apparatus, wherein the control unit of the server device, an information receiving means for receiving the usage information transmitted from the terminal device, the usage information received Based on the received usage information, the analysis result creating means for creating an analysis result based on the integrated modeling means. An integrated BIM model changing means for changing at least one of an elevator BIM part and a store BIM part included in the combined BIM model . BIM parts of the store may include product information about a product that the shop is provided, before Symbol display control means, said operation screen the operation screen generated by the generation means, associated with BIM parts of the store the commodity information displayed on the display unit has, before Symbol usage information acquiring means, the pre-order information items inputted in response to pre-order operation to the item to be performed on the operation screen by the user The BIM system according to claim 1, wherein the BIM system is acquired by being included in the usage information. A BIM system in which a server device including at least a control unit and a storage unit, and a terminal device including at least a control unit, a display unit, and an input unit are communicably connected, and the storage unit of the server device The BIM model storage means for storing the BIM model of the building including the BIM parts of the store, and the part information storage means for storing the part information relating to the parts for creating the BIM part of the elevator that can be incorporated into the BIM model And the control unit of the server device creates a BIM part of the elevator corresponding to a creation condition input by a designer using the part information stored in the part information storage means. The BIM part of the elevator created by the modeling means and the elevator modeling means is recorded in the BIM model storage means. Based on the integrated BIM model created by the integrated modeling means, an integrated modeling means for creating an integrated BIM model corresponding to the elevator built-in building in a state incorporated in the BIM model, An integrated BIM model conversion means for converting to a light weight integrated BIM model; and an information distribution means for transmitting the light weight integrated BIM model converted by the integrated BIM model conversion means to the terminal device, The control unit includes an information acquisition unit that receives the lightweight integrated BIM model transmitted from the server device by the information distribution unit, and an operation screen that includes the lightweight integrated BIM model received by the information acquisition unit. Operation screen generation means for generating, and the operation screen generated by the operation screen generation means Display control means for displaying on the display unit; and usage information indicating a usage status of the light weight integrated BIM model operated on the operation screen by the user via the input unit, the user by the user Usage information acquisition means for acquiring the usage information including at least route information indicating a movement route to the BIM parts of the store using the BIM parts of the elevator as movement means, and the usage information acquired by the usage information acquisition means And a route in the lightweight integrated BIM model when performing a route search in the lightweight integrated BIM model based on a search condition including at least a destination or purpose input by the user via the input unit. Based on the search conditions entered by all users who searched, the congestion status of the BIM parts of the elevator is predicted, and the congestion status is A BIM system comprising: route search means for performing a route search to be avoided; and information providing means for transmitting the usage information acquired by the usage information acquisition means to the server device. The search condition, BIM system of claim 3 further comprising a commodity information about the commodity the store provides. At least comprising a server device and a control unit and a storage unit, and, a method performed an input unit and the control unit and the display unit at least comprises a terminal device, the BIM system communicatively connected to the front Stories the storage unit of the server part relates part for creating a BIM model storage unit, the BIM parts before Symbol incorporable elevator to BIM model for storing BIM models of buildings including BIM parts store shop comprising a part information storing means for storing information, a pre-Symbol method is performed in the control unit of the previous SL server device, the BIM parts of the elevator corresponding to create conditions input by the designer, the and elevator modeling step of creating with the part information stored in the parts-information storage means, executing in said control unit of the previous SL server Integrated modeling for creating an integrated BIM model corresponding to an elevator built-in building in which the BIM part of the elevator created in the elevator modeling step is incorporated in the BIM model stored in the BIM model storage means a step, executed in the control unit of the previous SL server device, wherein based on the integrated BIM model created in integrated modeling step, integrated BIM model converts the integrated BIM model weight integrated BIM model conversion a step, executed in the control unit of the previous SL server device, an information distribution step of transmitting the weight of integrated BIM model converted by the integrated BIM model conversion step to the terminal device, the pre SL terminal The information distribution step is executed from the server device executed in the control unit. Comprising an information obtaining step of receiving said lightweight integrated BIM model transmitted in up, is executed in the control unit of the previous SL terminal device, the weight integration BIM model received by the information acquisition step an operation screen generating step of generating an operation screen, is executed in the control unit of the previous SL terminal device, and a display control step of displaying the operation screen generated by the operation screen generating step on the display unit, before The usage information indicating the usage status of the lightweight integrated BIM model operated on the operation screen by the user via the input unit, executed in the control unit of the terminal device, The usage information including at least route information indicating a movement route to the BIM part of the store using the BIM part of the elevator as a moving means. And usage information acquiring step of acquiring an information providing step of transmitting the usage information acquired by the previous SL use information obtaining step to said server apparatus, information receiving step of receiving the usage information transmitted from the terminal device An analysis result creating step for creating an analysis result based on the received usage information; and an elevator BIM included in the integrated BIM model created by the integrated modeling step based on the received usage information An integrated BIM model changing step for changing at least one of the parts and the store BIM parts . BIM parts of the store may include product information about a product that the shop is provided, before Symbol display control step, the operation screen the operation screen generated in generation step, associating to BIM parts of the store the product information provided is displayed on the display unit, before Symbol use information obtaining step, the pre-order information items inputted in response to pre-order operation to the item to be performed on the operation screen by the user The method according to claim 5 , wherein the method is acquired in the usage information.   A method executed in a BIM system in which a server device including at least a control unit and a storage unit, and a terminal device including at least a control unit, a display unit, and an input unit are communicably connected. The storage unit of the apparatus stores BIM model storage means for storing a BIM model of a building including BIM parts of a store, and part information relating to parts for creating a BIM part of an elevator that can be incorporated into the BIM model. Part information storage means, and the method executes, in the parts information storage means, the BIM part of the elevator corresponding to a creation condition input by a designer, which is executed in the control unit of the server device. Elevator modeling step created using the stored part information, and executed in the control unit of the server device Integrated modeling for creating an integrated BIM model corresponding to an elevator built-in building in which the BIM part of the elevator created in the elevator modeling step is incorporated in the BIM model stored in the BIM model storage means And an integrated BIM model conversion step for converting the integrated BIM model into a light weight integrated BIM model based on the integrated BIM model created in the integrated modeling step, which is executed in the control unit of the server device And an information distribution step for transmitting the weight-reduced integrated BIM model converted in the integrated BIM model conversion step, which is executed in the control unit of the server device, to the terminal device, and the control unit of the terminal device The information distribution step is performed from the server device executed in An information acquisition step for receiving the weight-reduced integrated BIM model transmitted in the network, and an operation including the light-weighted integrated BIM model received in the information acquisition step, which is executed in the control unit of the terminal device An operation screen generating step for generating a screen; a display control step for displaying the operation screen generated in the operation screen generating step on the display unit, executed in the control unit of the terminal device; and the terminal device The usage information indicating the usage status of the light weight integrated BIM model operated on the operation screen by the user via the input unit, which is executed in the control unit of the elevator. The usage information including at least route information indicating a moving route to the BIM part of the store using the BIM part as a moving means. Based on a search condition including at least a usage information acquisition step to be acquired, the usage information acquired in the usage information acquisition step, and a destination or purpose input by a user via an input unit, the weight reduction integration When a route search is performed in the BIM model, the congestion status of the BIM parts of the elevator is predicted based on the search conditions input by all users who have performed the route search in the light weight integrated BIM model. A route search step for performing a route search that avoids a situation, and an information providing step for transmitting the usage information acquired in the usage information acquisition step to the server device.

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