JP5489310B1 - BIM system and method - Google Patents

Abstract

An object of the present invention is to provide a BIM system and method capable of visually displaying a state in which an elevator is incorporated in a building when a facility plan for the elevator is proposed.
A BIM system creates a BIM part of an elevator corresponding to a creation condition by using part information, creates an integrated BIM model in which the BIM part is incorporated in a BIM model of a building, and creates the integrated BIM model. A layout screen including the layout screen is generated, and the layout screen is displayed on the display unit. Here, the BIM system calculates a case opening area generated when a BIM part is installed in the BIM model, and creates an integrated BIM model in a state where a safety measure product is arranged for the calculated case opening area.
[Selection] Figure 2

Description

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

  Conventionally, the person in charge of the elevator manufacturer has used the two-dimensional drawings such as the plan view and the cross-sectional view and the catalog and the delivery results etc. for the customer who designs the building equipped with the elevator to plan the equipment for the elevator. Had proposed. Therefore, in recent years, when proposing an equipment plan for an elevator, there has been a demand for a technique for visually displaying a state in which the elevator is incorporated in a building.

JP 2010-262580 A

  The problem to be solved by the present invention is to provide a BIM system and method capable of visually displaying a state in which an elevator is incorporated in a building when a facility plan for the elevator is proposed.

  The BIM system of the embodiment includes at least a control unit, a storage unit, and a display unit. The storage unit includes a BIM model storage unit that stores a BIM model of a building, and a part information storage unit that stores part information for creating a BIM part of an elevator that can be incorporated into the BIM model. The control unit is created by an elevator modeling unit that creates the BIM part corresponding to a creation condition input by a user using the part information stored in the part information storage unit, and the elevator modeling unit. An integrated modeling means for creating an integrated BIM model in which the BIM part is incorporated in the BIM model stored in the BIM model storage means, and a layout screen including the integrated BIM model created by the integrated modeling means is generated. And a screen display unit for displaying the layout screen generated by the screen generation unit on the display unit. The integrated modeling means calculates a case opening area generated when the BIM part is installed in the BIM model, and creates the integrated BIM model in a state in which a safety measure product is arranged for the calculated case opening area. It is characterized by.

FIG. 1 is a conceptual diagram showing an example of a building design book and a BIM model. FIG. 2 is a block diagram showing an example of the configuration of the BIM system in the first embodiment. FIG. 3 is a diagram illustrating an example of a BIM part of an elevator. FIG. 4 is a diagram illustrating an example of an integrated BIM model in a state in which an escalator is incorporated into a building body part. FIG. 5 is a diagram illustrating an example of a case opening area and a location requiring safety measures in the integrated BIM model illustrated in FIG. FIG. 6 is a diagram illustrating an example of a safety measure product corresponding to a location where the safety measure is required in the integrated BIM model illustrated in FIG. FIG. 7 is a diagram illustrating an example of a safety measure product with respect to an installation area for optional items. FIG. 8 is a flowchart illustrating an example of basic processing according to the first embodiment. FIG. 9 is a flowchart illustrating an example of the integrated BIM model creation process. FIG. 10 is a flowchart illustrating another example of the integrated BIM model creation process. FIG. 11 is a flowchart illustrating an example of the safety measure change process. FIG. 12 is a flowchart illustrating an example of an integrated BIM model creation process for rearranging safety countermeasure products in accordance with changes in BIM parts. FIG. 13 is a flowchart illustrating an example of an integrated BIM model creation process in which rearrangement of safety countermeasure products is performed in accordance with the change of the BIM model. FIG. 14 is a block diagram illustrating an example of a configuration of a BIM system according to the second embodiment. FIG. 15 is a flowchart illustrating an example of basic processing of the BIM system in the second embodiment. FIG. 16 is a block diagram showing an example of the configuration of the BIM system in the third embodiment. FIG. 17 is a flowchart illustrating an example of basic processing of the BIM system in the third embodiment.

  Hereinafter, embodiments of a BIM system, a server device, a terminal device, a method, and a program according to embodiments will be described in detail with reference to the drawings. Note that the present invention is not limited to the embodiments.

  Here, an outline of BIM (building information modeling) used in the embodiment will be described with reference to FIG. 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 type of business. You can check relevance and consistency above. The following embodiment demonstrates the elevator customer proposal system which uses this BIM.

  Hereinafter, with regard to the configuration and processing of the embodiment, the first embodiment (BIM system (function distributed type)), the second embodiment (BIM system (server-driven type)), and the third embodiment (BIM system (stand-alone) The details will be described in the order of type)).

[First Embodiment]
First, the first embodiment will be described below with reference to FIGS. 2 to 13. The form of function distribution on the server side and terminal side in the BIM system exemplified in the first embodiment is not limited to the following, and functionally or physically in arbitrary units within a range where the same effects and functions can be achieved. It can be configured to be distributed and integrated.

[Configuration of BIM System in First Embodiment]
First, an example of the configuration of the BIM system in the first embodiment will be described below with reference to FIG. FIG. 2 is a block diagram showing an example of the configuration of the BIM system in the first embodiment, and conceptually shows main parts of the configuration. In this embodiment, 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.

  As shown in FIG. 2, the BIM system of the first embodiment schematically includes a server device 200 that can provide information such as a three-dimensional model of an elevator (that is, a BIM part of the elevator), and one or more A terminal device 100 equipped with a BIM application or the like is configured to be communicably connected. Here, as shown in FIG. 2, 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. 2, in the BIM system of the first 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, the audio output unit 116), the input unit 118, the control unit 102, and the storage unit 106.

[Configuration of Server Device 200]
Here, in FIG. 2, the server device 200 has a function of creating a BIM part of an elevator corresponding to a creation condition transmitted from the terminal device 100 and transmitting it to the terminal device 100. The server device 200 is connected to the terminal device 100 through the communication control interface unit 204 via the network 300 so as to be able to communicate with each other, and includes a control unit 202 and a storage unit 206. 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 unit such as an SSD (Solid State Drive), and stores various databases and tables (part information database 206a and the like).

  Among these components of the storage unit 206, the part information database 206a is a part information storage unit that stores part information 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 part information includes all information necessary for the user to design the BIM part 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 102 described later. Here, the BIM part size information includes size information of each unit and 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. Further, the part information includes, for example, setting parameters used when the BIM part is changed by the control unit 102 described later. 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 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 includes a creation condition receiving unit 202a, an elevator modeling unit 202b, and an information providing unit 202c in terms of functional concept.

  Among these, the creation condition receiving unit 202 a is a creation condition receiving unit that receives a creation condition transmitted from the terminal device 100. Here, the creation conditions are conditions indicating the specifications of the elevator desired by the user. 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 condition may include, for example, at least one of 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 terminal device 100, or read from an external storage device (not shown) in which the creation conditions are stored in advance. It may be.

  The elevator modeling unit 202b is an elevator modeling unit that creates elevator BIM parts corresponding to the creation conditions 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, a three-dimensional BIM part of an escalator as shown in FIG. Here, FIG. 3 is a diagram showing an example of the BIM parts of the elevator. FIG. 3 shows BIM parts of three escalators created for each model.

  The elevator modeling unit 202b may create BIM parts of a plurality of elevators that satisfy the creation conditions so that the user can select them while confirming on a layout screen described later. 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 providing unit 202 c is an information providing unit that transmits the BIM parts of the elevator created by the elevator modeling unit 202 b to the terminal device 100. Here, the information providing unit 202c may transmit a calculation result including a plurality of BIM parts to the terminal device 100.

[Configuration of Terminal Device 100]
In FIG. 2, the terminal device 100 transmits a creation condition necessary for creating a BIM part to the server device 200, and the server device 200 displays the calculation result of the server device 200 including the BIM part created according to the creation condition. It has functions such as receiving from. In addition, the terminal device 100 has a function of generating a layout screen including at least the BIM parts received from the server device 200 and displaying the layout screen on the display unit 114. At this time, the terminal device 100 calculates a case opening area generated when the BIM parts are installed in the BIM model, and creates an integrated BIM model in a state in which a safety measure product is arranged for the calculated case opening area.

  The terminal device 100 is, for example, a commercially available 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 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. 2, 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. 2, 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 interconnecting the terminal device 100 and the server device 200 with 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). 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).

  In FIG. 2, 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 (BIM model database 106a and the like). Here, the storage unit 106 may temporarily store various files and the like.

  Among these, the BIM model database 106a is a BIM model storage unit that stores a BIM model of a building. In the present embodiment, the BIM model database 106a stores a BIM model of a building 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 FIG. 2, the control unit 102 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 102 performs the information processing for performing various processes by these programs. In terms of functional concept, the control unit 102 includes a creation condition transmission unit 102a, an information acquisition unit 102b, an integrated modeling unit 102c, a screen generation unit 102g, a screen display unit 102h, a safety measure change unit 102i, a BIM parts change unit 102j, and A BIM model changing unit 102k is provided. Here, the integrated modeling unit 102c further includes a housing opening area calculation unit 102d, a safety measure necessary part specifying unit 102e, and a safety measure product placement unit 102f.

  Among these, the creation condition transmission unit 102 a is a creation condition transmission unit that transmits the creation condition input by the user to the server apparatus 200. Here, the creation conditions are conditions indicating the specifications of the elevator desired by the user. 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 be input by the user via the input unit 118, or may be read from an external storage device (not shown) in which the creation conditions are stored in advance.

  The information acquisition unit 102 b is an information acquisition unit that receives a calculation result including a BIM part corresponding to a creation condition transmitted from the server device 200. Here, the information acquisition unit 102b may receive a calculation result including a plurality of BIM parts from the server device 200. The information acquisition unit 102b may store the received BIM parts in the storage unit 106 and construct a BIM parts database (not shown).

  The integrated modeling unit 102c is an integrated modeling unit that creates an integrated BIM model in which the BIM part of the elevator received by the information acquisition unit 102b is incorporated into the BIM model of the building stored in the BIM model database 106a. In the present embodiment, the integrated modeling unit 102c calculates a case opening area that is generated when a BIM part is installed in the BIM model, and creates an integrated BIM model in a state where safety measure products are arranged for the calculated case opening area. . The integrated modeling unit 102c may store the created integrated BIM model in the storage unit 106 and construct an integrated BIM model database (not shown).

  Here, since the integrated modeling unit 102c further includes a housing opening area calculation unit 102d, a safety measure necessary part specifying unit 102e, and a safety measure product arrangement unit 102f, details thereof will be described below.

  Among these, the frame opening area calculation unit 102d has a frame part based on the positional relationship between the entire BIM part and the frame part (ceiling, floor, column, wall surface, etc.) of the BIM model in a state where the BIM part is installed in the BIM model. This is a housing opening area calculating means for calculating a space area in the BIM model based on the determined opening and calculating a space area in the BIM model as a housing opening area. Specifically, first, as shown in FIG. 4, for example, as shown in FIG. 4, the frame opening area calculation unit 102 d converts the BIM part of the escalator into a building frame portion of a building (in the example of FIG. 4, a frame made up of a ceiling, a floor surface, and a pillar. An integrated BIM model installed in the (part) BIM model is created. Here, FIG. 4 is a diagram illustrating an example of the integrated BIM model in a state in which the escalator is incorporated into the building body of the building. For convenience of explanation, the building body portion shown in FIG. 4 shows a state in which the wall surface is removed. However, the housing portion is not limited to this, and the housing portion may be configured to include the wall surface. The upper right part of FIG. 4 shows an enlarged image of a part of the building's housing in a state where no escalator is installed. The lower right part of FIG. 4 shows a building where the escalator is installed. An enlarged image of a part of the box part is shown. Subsequently, as shown in FIG. 5, for example, as illustrated in FIG. 5, the frame opening area calculation unit 102 d has the entire BIM part and the frame part of the BIM model (example in the upper part of FIG. In FIG. 5, the opening of the housing part (the opening on the ceiling side and the opening on the floor side in the example of the middle stage in FIG. 5) decide. This opening is an area on the side of the frame that needs to be pulled out in order to install the BIM part of the escalator in the BIM model of the building. Subsequently, the frame opening area calculation unit 102d calculates the space area in the BIM model based on the determined opening (the ceiling-side opening and the floor-side opening in the example in the middle stage of FIG. 5). (In the example in the lower part of FIG. 5, it is calculated as a space area indicated by oblique lines). Here, FIG. 5 is a diagram illustrating an example of a case opening area and a place requiring safety measures in the integrated BIM model illustrated in FIG.

  The safety measure-required location specifying unit 102e is a safety measure-required location specifying means for specifying a location (safety measure required location) where safety measures are required for the chassis opening area calculated by the chassis opening area calculating unit 102d. . In the present embodiment, the safety measure product is a member (triangular guard, handrail, partition plate, etc.) for protecting the user as a safety measure for the frame opening area generated when the BIM part is installed in the BIM model. . For example, the safety measure required part specifying unit 102e specifies a part that requires a safety measure for the user when using the elevator in the frame opening region as shown in the lower part of FIG. In addition, the safety measure-necessary part specifying unit 102e specifies a part that requires a safety measure for the user when passing near the elevator in the frame opening region as shown in the lower part of FIG.

  The safety measure product placement unit 102f is a safety measure product placement unit that places a safety measure product at a location where the safety measure is specified by the safety measure required location specifying unit 102e. For example, as shown in FIG. 6, the safety measure product placement unit 102f places a triangular card as a safety measure product at a location requiring a safety measure for a user when using an elevator. Further, as shown in FIG. 6, the safety measure product arrangement unit 102f arranges a handrail as a safety measure product at a location requiring safety measures for the user when passing near the elevator. Here, FIG. 6 is a diagram illustrating an example of a safety measure product corresponding to a location where the safety measure is required in the integrated BIM model illustrated in FIG.

  In addition, when the BIM part includes an optional article related to the elevator, the integrated modeling unit 102c calculates an installation area of the optional article, and creates an integrated BIM model in a state where the safety measure product is arranged for the calculated installation area. May be. Here, the optional article includes a member (for example, an automatic operation pole, a direction light, a guide handrail, etc.) for assisting a user of the elevator installed near the elevator. For example, as shown in FIG. 7, the integrated modeling unit 102c first installs an optional product based on the positional relationship between the optional product and the BIM part when an automatic operation pole is installed as an optional product near the escalator. Calculate the area. The installation area includes, for example, a space area adjacent to the chassis opening area and extending from the chassis opening area to a position where the optional article is installed. Here, FIG. 7 is a diagram illustrating an example of a safety measure product with respect to the installation area of the optional product. In this case, the safety measure-required location specifying unit 102e specifies locations where safety measures are required for the calculated installation area. For example, in the installation area as shown in FIG. 7, the safety measure required part specifying unit 102e needs a partition plate for setting a passage route that allows a user who uses the escalator to normally operate automatic driving. Identify the location. Subsequently, the safety measure product arrangement unit 102f arranges the safety measure product at a location where the safety measure is specified, which is specified by the safety measure required location specifying unit 102e. For example, as shown in FIG. 7, the safety measure product placement unit 102f is a safety measure in a place where a partition plate is required for setting a passage that allows a user who uses an escalator to operate automatically. A partition plate is arranged as a countermeasure product.

  In addition, the integrated modeling unit 102c calculates a case opening region that is generated when the BIM part changed by the BIM part changing unit 102j described later is installed in the BIM model stored in the BIM model database 106a, and the calculated case You may create the integrated BIM model of the state which rearranged the safety measure goods with respect to an opening area | region. Further, the integrated modeling unit 102c converts the BIM part of the elevator received by the information acquisition unit 102b or the BIM part changed by the BIM part changing unit 102j of the building changed by the BIM model changing unit 102k described later. An integrated BIM model may be created in a state in which a case opening area generated when installed in the BIM model is calculated, and safety measures for the calculated case opening area are rearranged.

  Returning to FIG. 2, the screen generation unit 102g is a screen generation unit that generates a layout screen including the integrated BIM model created by the integrated modeling unit 102c. The screen generation unit 102g generates a layout screen including an integrated BIM model in which safety measures are arranged as shown in FIGS. 6 and 7, for example. Here, the screen generation unit 102g may generate a layout screen including the elevator BIM parts changed by the BIM parts changing unit 102j described later. The screen generation unit 102g may generate a layout screen including the BIM model of the building changed by the BIM model changing unit 102k described later.

  The screen display unit 102h is a screen display unit that causes the display unit 114 to display the layout screen generated by the screen generation unit 102g.

  The safety measure changing unit 102i performs the safety measure changing operation when the safety measure changing operation for changing the safety measure product by the user is detected on the layout screen displayed on the display unit 114 by the screen display unit 102h. Accordingly, it is a safety measure changing means for changing the safety measure product for the frame opening region in the integrated BIM model.

  Here, the safety measure changing operation includes an additional operation of adding a safety measure product. Addition operations include, for example, an operation for switching a safety measure product to a changeable safety measure product change mode, and a desired safety measure product from a list (not shown) of addable safety measure products displayed on the layout screen. This includes operations for selecting, operations for designating a location on the layout screen where the selected safety measure product is to be placed, and the like. In this case, when an additional operation is detected on the layout screen, the safety measure changing unit 102i adds a safety measure product at a position in the integrated BIM model designated by the additional operation.

  The safety measure changing operation includes a delete operation for deleting the safety measure product. The deletion operation includes, for example, an operation for switching the safety measure product to a changeable safety measure product change mode, an operation for selecting a deleteable safety measure product displayed on the layout screen, and the like. In this case, when the delete operation is detected on the layout screen, the safety measure change unit 102i deletes the safety measure product in the integrated BIM model selected by the delete operation.

  Further, the safety measure changing operation includes a moving operation for moving the arrangement position of the safety measure product. For example, the move operation can be performed by switching the safety measure product to the changeable safety measure product change mode, selecting the moveable safety measure product displayed on the layout screen, and selecting the location where the selected safety measure product is placed. This includes operations specified on the layout screen. In this case, when a movement operation is detected on the layout screen, the safety countermeasure change unit 102i moves the safety countermeasure product corresponding to the position in the integrated BIM model specified by the movement operation.

  In addition, the BIM parts changing unit 102j performs the BIM parts changing operation when the BIM parts changing operation for changing the BIM parts in the integrated BIM model is detected on the layout screen displayed on the display unit 114 by the screen display unit 102h. The BIM part changing means for changing the BIM part in the integrated BIM model according to the above. The BIM part changing operation includes, for example, an operation for switching to a BIM part changing mode in which the BIM part can be changed, an adding operation for adding a BIM part, a deleting operation for deleting a BIM part, a moving operation for moving a BIM part, and the like.

  Further, the BIM model changing unit 102k, when a BIM model changing operation for changing the BIM model in the integrated BIM model is detected on the layout screen displayed on the display unit 114 by the screen display unit 102h, the BIM model changing operation The BIM part changing means for changing the BIM model in the integrated BIM model according to the above. The BIM model change operation includes, for example, an operation for switching the BIM model to a changeable BIM model change mode, an add operation for adding a part of the BIM model, a delete operation for deleting a part of the BIM model, and a part of the BIM model. Including moving operation to move.

  In addition, the control unit 102 detects the user's installation operation for installing the BIM part received by the information acquisition unit 102b in the planned installation area of the BIM part in the BIM model stored in the BIM model database 106a. Operation screen creation means for creating an operation screen may be further provided. The control unit 102 may further include an operation screen display unit that causes the display unit 114 to display the operation screen created by the operation screen creation unit. In this case, the integrated modeling unit 102c calculates a frame opening region that is generated when the BIM parts are installed in the planned installation region according to the installation operation detected through the operation screen displayed by the operation screen display unit. You may create the integrated BIM model of the state which has arrange | positioned the safety measure goods with respect to the calculated housing opening area | region.

  Above, description of an example of a structure of the BIM system in 1st Embodiment is finished.

[Process of BIM System in First Embodiment]
Next, an example of processing of the BIM system in the first embodiment configured as described above will be described in detail with reference to FIGS. FIG. 8 is a flowchart showing an example of basic processing of the BIM system in the first embodiment.

  As illustrated in FIG. 8, the creation condition transmission unit 102a of the terminal device 100 transmits the creation condition input by the user to the server device 200 (step SA-10).

  Then, the creation condition receiving unit 202a of the server device 200 receives the creation condition transmitted by the process of the creation condition transmitting unit 102a in step SA-10 (step SA-20).

  Then, the elevator modeling unit 202b of the server apparatus 200 stores the BIM parts of the elevator corresponding to the creation condition received by the process of the creation condition receiving unit 202a in step SA-20, in the part information database 206a. (Step SA-30). For example, the elevator modeling unit 202b creates an escalator BIM part as shown in FIG. Here, in step SA-30, the elevator modeling unit 202b may create a plurality of elevator BIM parts that satisfy the creation conditions.

  And the information provision part 202c of the server apparatus 200 transmits the BIM part of the elevator produced by the process of the elevator modeling part 202b in step SA-30 to the terminal device 100 (step SA-40).

  And the information acquisition part 102b of the terminal device 100 receives the BIM part of the elevator transmitted by the process of the information provision part 202c in step SA-40 (step SA-50).

  Then, the integrated modeling unit 102c of the terminal device 100 stores the BIM parts of the elevator or elevators received by the processing of the information acquisition unit 102b in step SA-50, and the BIM of the building stored in the BIM model database 106a. An integrated BIM model incorporated in the model is created (step SA-60). For example, the integrated modeling unit 102c is in a state in which an escalator BIM part is incorporated in a building BIM model as shown in FIG. In the example, an integrated BIM model in which a triangular guard and a handrail) are arranged is created. In addition, the integrated modeling unit 102c, when an optional product (automatic operation pole in the example of FIG. 7) is installed near the escalator as shown in FIG. An integrated BIM model in which a countermeasure product (partition plate in the example of FIG. 7) is arranged is created.

  Here, details of the integrated BIM model generation processing in step SA-60 of FIG. 8 will be described below with reference to FIG. FIG. 9 is a flowchart illustrating an example of the integrated BIM model creation process.

  As shown in FIG. 9, the frame opening area calculation unit 102d has a positional relationship between the entire BIM part and the frame part (ceiling, floor, pillar, wall surface, etc.) of the BIM model in a state where the BIM part is installed in the BIM model. Based on the above, the opening of the housing part is determined, and the spatial region in the BIM model based on the determined opening is calculated as a housing opening region as shown in FIG. 5 (step SA-61).

  Then, the safety measure-required location specifying unit 102e is a location where safety measures are required for the case opening area calculated by the process of the case opening area calculating unit 102d in step SA-61 (in the example of FIG. Identify where safety measures are required for users when using escalators, and where safety measures are required for users when passing near escalators (step SA-62) .

  Then, the safety measure product placement unit 102f places a safety measure product (triangular guard in the example of FIG. 6) at a location where the safety measure specified by the processing of the safety measure required location specifying unit 102e in step SA-62 is required. Or a handrail) is arranged (step SA-63). Thereafter, the process proceeds to step SA-70 in FIG.

  In the present embodiment, the integrated modeling unit 102c, in addition to the integrated BIM model creation process shown in FIG. 9 described above, in the case where the BIM part includes optional equipment related to the elevator, in step SA-60 in FIG. The integrated BIM model creation process shown in FIG. FIG. 10 is a flowchart illustrating another example of the integrated BIM model creation process.

  As illustrated in FIG. 10, the integrated modeling unit 102c determines whether or not an optional product is installed for the BIM part (step SA-64).

  If the integrated modeling unit 102c determines in step SA-64 that an optional product is installed for the BIM part (step SA-64: Yes), the integrated modeling unit 102c calculates the installation area of the optional product (step SA). -65). In step SA-65, for example, as shown in FIG. 7, the integrated modeling unit 102c, when an automatic operation pole is installed as an optional product near the escalator, based on the positional relationship between the optional product and the BIM part. To calculate the installation area for optional accessories. Then, the location where the safety measure is required is specified by the part 102e where the safety measure is required for the installation area calculated in step SA-65 (in the example of FIG. 7, the user using the escalator is automatically A location where a partition plate for setting a traffic route that can operate is specified (step SA-62). Then, the safety measure product placement unit 102f places a safety measure product (partition plate or the like in the example of FIG. 7) at a location where the safety measure is specified by the safety measure required location specifying unit 102e in step SA-62. Arrange (step SA-63). Thereafter, the process proceeds to step SA-70 in FIG.

  On the other hand, if the integrated modeling unit 102c determines in step SA-64 that the optional article is not installed for the BIM part (step SA-64: No), the above-described step SA-65, step SA-62, The process returns to step SA-64 without performing step SA-63. In this embodiment, if it is not determined in step SA-64 that the optional article is installed for the BIM part in step SA-64, the integrated modeling unit 102c performs step SA-61, step SA-62, step in FIG. It is assumed that the process of SA-63 is executed.

  Returning to FIG. 8, the description will be continued from the processing of step SA-70. The screen generation unit 102g of the terminal device 100 generates a layout screen including the integrated BIM model created by the processing of the integrated modeling unit 102c in step SA-60 (step SA-70). In step SA-70, the screen generation unit 102g generates a layout screen including an integrated BIM model in which safety measures are arranged as shown in FIGS. 6 and 7, for example.

  Then, the screen generation unit 102g of the terminal device 100 causes the display unit 114 to display the layout screen generated by the process of the screen generation unit 102g in Step SA-70 (Step SA-80). For example, the screen generation unit 102g causes the display unit 114 to display a layout screen including an integrated BIM model in which safety measures are arranged, for example, as illustrated in FIGS.

  Then, the control unit 102 of the terminal device 100 performs a safety measure changing operation for changing the safety measure product by the user on the layout screen displayed on the display unit 114 by the process of the screen display unit 102h in Step SA-80. It is determined whether or not it has been detected (step SA-90). In the present embodiment, the safety measure changing operation includes, for example, an adding operation for adding a safety measure product, a deleting operation for deleting a safety measure product, a moving operation for moving the arrangement position of the safety measure product, and the like.

  When the safety measure changing unit 102i of the terminal device 100 determines in step SA-90 that a safety measure changing operation has been detected by the processing of the control unit 102 (step SA-90: Yes), the detected safety measure is detected. In accordance with the measure change operation, the safety measure product for the frame opening region in the integrated BIM model is changed (step SA-100). Thereafter, the control unit 102 causes the display unit 114 to display a layout screen including the changed safety measure product, and then ends the present process.

  On the other hand, when the control unit 102 of the terminal device 100 determines that the safety measure changing operation is not detected in Step SA-90 (Step SA-90: No), the control measure changing process of Step SA-100 is executed. Without this, the present process is terminated.

  Here, the details of the determination process in step SA-90 and the safety measure change process in step SA-100 executed in FIG. 8 will be described below with reference to FIG. FIG. 11 is a flowchart illustrating an example of the safety measure change process.

  As shown in FIG. 11, the control unit 102 determines whether or not an additional operation for adding a safety measure product has been detected (step SA-91). Here, the addition operation refers to, for example, an operation for switching a safety measure product to a changeable safety measure product change mode, or a desired safety measure product list (not shown) displayed on the layout screen. This includes operations for selecting countermeasure products, operations for designating locations on the layout screen where the selected safety countermeasure products are to be placed.

  If it is determined in step SA-91 that an additional operation has been detected by the process in the control unit 102 (step SA-91: Yes), the safety measure changing unit 102i includes the integrated BIM model specified by the additional operation. A safety measure product is added to the position (step SA-101). Thereafter, this process is terminated.

  On the other hand, when it is determined in step SA-91 that an additional operation has not been detected by the process in the control unit 102 (step SA-91: No), the control unit 102 further performs a deletion operation to delete the safety countermeasure product. It is determined whether or not it has been detected (step SA-92). The deletion operation includes, for example, an operation for switching the safety measure product to a changeable safety measure product change mode, an operation for selecting a deleteable safety measure product displayed on the layout screen, and the like.

  If it is determined in step SA-92 that the control unit 102 has detected a delete operation (step SA-92: Yes), the safety measure changing unit 102i includes the integrated BIM model selected by the delete operation. Are deleted (step SA-102). Thereafter, this process is terminated.

  On the other hand, when it is determined in step SA-92 that the deletion operation has not been detected by the control unit 102 (step SA-92: No), the control unit 102 further moves the arrangement position of the safety countermeasure product. It is determined whether or not a movement operation has been detected (step SA-93). For example, the move operation can be performed by switching the safety measure product to the changeable safety measure product change mode, selecting the moveable safety measure product displayed on the layout screen, and selecting the location where the selected safety measure product is placed. This includes operations specified on the layout screen.

  If it is determined in step SA-93 that the movement operation has been detected by the control unit 102 (step SA-93: Yes), the safety measure changing unit 102i includes the integrated BIM model specified by the movement operation. The safety measure product corresponding to the position is moved (step SA-103). Thereafter, this process is terminated.

  On the other hand, when it is determined in step SA-93 that the movement operation has not been detected by the control unit 102 (step SA-93: No), the control unit 102 performs the above-described various steps SA-101 to 103. This process is terminated without executing the safety measure changing process. That is, the control unit 102 does not detect an addition operation in Step SA-91 (Step SA-91: No), and does not detect a deletion operation in Step SA-92 (Step SA-92: No). If it is determined in step SA-93 that no movement operation has been detected (step SA-93: No), it is determined that no safety measure change operation has been detected, and the safety measure change process is not executed. This process is terminated.

  In this embodiment, after creating an integrated BIM model in which safety measures are arranged, the user changes the safety measures on the layout screen, and also changes BIM parts and / or BIM models in the integrated BIM model. You can also. At this time, it is necessary to rearrange the safety measure products in accordance with the change of the BIM parts (change on the elevator side) and the change of the BIM model (change on the building side). Hereinafter, with reference to FIG. 12 and FIG. 13, an integrated BIM model creation process for rearranging safety countermeasure products in accordance with a change on the elevator side or a change on the building side will be described. FIG. 12 is a flowchart illustrating an example of an integrated BIM model creation process for rearranging safety countermeasure products in accordance with changes in BIM parts. FIG. 13 is a flowchart illustrating an example of an integrated BIM model creation process in which rearrangement of safety countermeasure products is performed in accordance with the change of the BIM model. FIG. 12 and FIG. 13 show processing after the processing of step SA-10 to step SA-50 shown in FIG. 8 is executed.

  As shown in FIG. 12, the integrated modeling unit 102c stores the BIM parts of one or more elevators received by the processing of the information acquisition unit 102b in step SA-50 of FIG. 8 in the BIM model database 106a. An integrated BIM model incorporated in the BIM model of the building is created (step SA-60). For example, the integrated modeling unit 102c is in a state in which an escalator BIM part is incorporated in a building BIM model as shown in FIG. In the example, an integrated BIM model in which a triangular guard and a handrail) are arranged is created. In addition, the integrated modeling unit 102c, when an optional product (automatic operation pole in the example of FIG. 7) is installed near the escalator as shown in FIG. An integrated BIM model in which a countermeasure product (partition plate in the example of FIG. 7) is arranged is created.

  Here, in step SA-60, the integrated modeling unit 102c integrates the BIM part of the elevator into the BIM model of the building changed by the BIM model changing unit 102k in step SA-121 of FIG. A BIM model may be created.

  Then, the screen generation unit 102g generates a layout screen including the integrated BIM model created by the processing of the integrated modeling unit 102c in Step SA-60 (Step SA-70). In step SA-70, the screen generation unit 102g generates a layout screen including an integrated BIM model in which safety measures are arranged as shown in FIGS. 6 and 7, for example.

  Then, the screen generation unit 102g causes the display unit 114 to display the layout screen generated by the process of the screen generation unit 102g in Step SA-70 (Step SA-80). For example, the screen generation unit 102g causes the display unit 114 to display a layout screen including an integrated BIM model in which safety measures are arranged, for example, as illustrated in FIGS.

  In step SA-80, the control unit 102 detects whether a BIM parts change operation for changing the BIM parts in the integrated BIM model is detected on the layout screen displayed on the display unit 114 by the process of the screen display unit 102h. It is determined whether or not (step SA-110). The BIM part changing operation includes, for example, an operation for switching to a BIM part changing mode in which the BIM part can be changed, an adding operation for adding a BIM part, a deleting operation for deleting a BIM part, a moving operation for moving a BIM part, and the like.

  When the BIM parts changing unit 102j determines that the BIM parts changing operation is detected by the process of the control unit 102 in step SA-110 (step SA-110: Yes), according to the BIM parts changing operation, The BIM part in the integrated BIM model is changed (step SA-111). Thereafter, the process proceeds to step SA-60.

  In this case, in step SA-60, the integrated modeling unit 102c is generated when the BIM part changed by the BIM part changing unit 102j in step SA-111 is installed in the BIM model stored in the BIM model database 106a. A frame opening area is calculated, and an integrated BIM model in a state where safety measures for the calculated frame opening area are rearranged is created. In step SA-70, the screen generation unit 102g generates a layout screen including the integrated BIM model created by the processing of the integrated modeling unit 102c in step SA-60. In step SA-80, the screen generation unit 102g causes the display unit 114 to display the layout screen generated by the process of the screen generation unit 102g in step SA-70.

  On the other hand, when the control unit 102 determines that the BIM parts change operation is not detected in Step SA-110 (Step SA-110: No), the controller 102 does not execute the BIM parts change process of Step SA-111. This process ends. In addition, when it determines with step SA-110: No, the control part 102 may perform the process of step SA-120 shown in FIG. 13 mentioned later, and step SA-121.

  As shown in FIG. 13, the integrated modeling unit 102c stores, in the BIM model database 106a, the BIM parts of one or more elevators received by the processing of the information acquisition unit 102b in step SA-50 in FIG. An integrated BIM model incorporated in the BIM model of the building is created (step SA-60). For example, the integrated modeling unit 102c is in a state in which an escalator BIM part is incorporated in a building BIM model as shown in FIG. In the example, an integrated BIM model in which a triangular guard and a handrail) are arranged is created. In addition, the integrated modeling unit 102c, when an optional product (automatic operation pole in the example of FIG. 7) is installed near the escalator as shown in FIG. An integrated BIM model in which a countermeasure product (partition plate in the example of FIG. 7) is arranged is created.

  Here, in step SA-60, the integrated modeling unit 102c converts the BIM part of the elevator changed by the BIM part changing unit 102j in step SA-111 of FIG. 12 into the building stored in the BIM model database 106a. An integrated BIM model embedded in the BIM model may be created.

  Then, the screen generation unit 102g generates a layout screen including the integrated BIM model created by the processing of the integrated modeling unit 102c in Step SA-60 (Step SA-70). In step SA-70, the screen generation unit 102g generates a layout screen including an integrated BIM model in which safety measures are arranged as shown in FIGS. 6 and 7, for example.

  Then, the screen generation unit 102g causes the display unit 114 to display the layout screen generated by the process of the screen generation unit 102g in Step SA-70 (Step SA-80). For example, the screen generation unit 102g causes the display unit 114 to display a layout screen including an integrated BIM model in which safety measures are arranged, for example, as illustrated in FIGS.

  The control unit 102 detects whether a BIM model change operation for changing the BIM model in the integrated BIM model is detected on the layout screen displayed on the display unit 114 by the process of the screen display unit 102h in step SA-80. It is determined whether or not (step SA-120). The BIM model change operation includes, for example, an operation for switching the BIM model to a changeable BIM model change mode, an add operation for adding a part of the BIM model, a delete operation for deleting a part of the BIM model, and a part of the BIM model. Including moving operation to move.

  When the BIM model change unit 102k determines that the BIM model change operation has been detected by the process of the control unit 102 in step SA-120 (step SA-120: Yes), The BIM model in the integrated BIM model is changed (step SA-121). Thereafter, the process proceeds to step SA-60.

  In this case, in step SA-60, the integrated modeling unit 102c calculates a frame opening region generated when the integrated modeling unit 102c is installed in the BIM model of the building changed by the process of the BIM model changing unit 102k in step SA-121, An integrated BIM model is created in a state where safety measures are rearranged for the calculated enclosure opening area. In step SA-70, the screen generation unit 102g generates a layout screen including the integrated BIM model created by the processing of the integrated modeling unit 102c in step SA-60. In step SA-80, the screen generation unit 102g causes the display unit 114 to display the layout screen generated by the process of the screen generation unit 102g in step SA-70.

  On the other hand, when it is determined that the BIM model change operation has not been detected in Step SA-120 (Step SA-120: No), the control unit 102 does not execute the BIM model change process of Step SA-121. This process ends. In addition, when it determines with step SA-120: No, the control part 102 may perform the process of step SA-110 and step SA-111 shown in the above-mentioned FIG.

  Above, description of an example of the process of the BIM system in 1st Embodiment is finished.

  Thus, according to this embodiment, when proposing an equipment plan for an elevator, the integrated BIM model in a state where the elevator is incorporated into a building can be displayed in a visually easy-to-understand manner. In addition, according to the present embodiment, when the BIM part of the elevator is installed in the BIM model of the building at the time of creating the integrated BIM model, the space between the elevator and the building-side frame (ceiling, wall, pillar, etc.) It is possible to automatically confirm and automatically install safety measures (triangular guards, handrails, partition plates, etc.) where necessary. Here, in the conventional 2D design, while confirming the plan view, side view, and front view with each other, check the necessity of safety measures, check the dimensions if necessary, and individually There was a need to place. Furthermore, since safety measures are placed between the individual individual drawings, there is a possibility that the installation location of the safety measures product may be wrong or the installation may be forgotten. According to this embodiment, these problems are solved. can do.

  For example, according to the present embodiment, by installing the BIM parts of the elevator that can grasp the space and clearance in the BIM model of the building, the space between the building-side ceiling and wall or pillar and the elevator is confirmed, Safety measures can be automatically installed where safety measures are required. In addition, according to the present embodiment, the safety measure products that are automatically arranged include those that are legally required, but even if they are not legally required, the integrated BIM model is temporarily arranged. The user of the present BIM system can examine three-dimensionally on the layout screen whether or not safety measures are installed. Moreover, according to this embodiment, the user of this BIM system is a requirement item to the building side as needed even after creating an integrated BIM model in a state where safety measures are arranged. As a result, it is possible to add, delete, move, etc. a safety measure product (such as a hanging wall or handrail). In addition, according to the present embodiment, even when the position of the elevator in the integrated BIM model or the building condition on the building side is changed, an appropriate safety measure product is automatically placed at an appropriate position each time. Can be rearranged. Furthermore, according to the present embodiment, safety measure products can be examined and automatically arranged in an installation area for optional equipment (for example, an automatic operation pole, a direction light, and a guide handrail) related to an elevator.

[Second Embodiment]
Next, a second embodiment will be described below with reference to FIGS. 14 and 15. Here, FIG. 14 is a block diagram showing an example of the configuration of the BIM system in the second embodiment, and conceptually shows a part related to the present embodiment in the configuration.

  In the second embodiment, the server apparatus 200 generates a layout screen including an integrated BIM model in which the BIM parts of the elevator corresponding to the creation conditions are incorporated in the BIM model of the building, and transmits the layout screen to the terminal apparatus 100. Thus, the display unit 114 of the terminal device 100 is controlled to display. As described above, the second embodiment is different from the other embodiments in that the server apparatus 200 performs processing led by the server.

[Configuration of BIM System in Second Embodiment]
First, an example of the configuration of the BIM system in the second embodiment will be described below with reference to FIG.

  As illustrated in FIG. 14, the server device 200 according to the second embodiment can communicate with a terminal device 100 including at least an output unit (display unit 114 and audio output unit 116), an input unit 118, and a control unit 102. It is connected and includes at least a control unit 202 and a storage unit 206. As an example, the communication includes remote communication such as wired / wireless communication via the network 300. Each unit of the server device 200 and the terminal device 100 is communicably connected via an arbitrary communication path.

  In FIG. 14, the server device 200 has functions such as creating a BIM part corresponding to the creation condition transmitted from the terminal device 100 and creating an integrated BIM model in which the BIM part is incorporated into the BIM model. Further, the server device 200 has a function of generating a layout screen including an integrated BIM model, transmitting the layout screen to the terminal device 100, and controlling the display unit 114 of the terminal device 100 to display the layout screen. At this time, the terminal device 100 calculates a case opening area generated when the BIM parts are installed in the BIM model, and creates an integrated BIM model in a state in which a safety measure product is arranged for the calculated case opening area.

  The functions of the communication control interface unit 204 and the storage unit 206 (part information database 206a, BIM model database 206b, etc.) in the server device 200, the display unit 114, the audio output unit 116, and the input in the terminal device 100 Since the function of the unit 118 is the same as that of the first embodiment, description thereof is omitted.

  In FIG. 14, the control unit 202 has an internal memory for storing a control program such as an OS, 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 has a functional concept in terms of a creation condition receiving unit 202a, an elevator modeling unit 202b, an integrated modeling unit 202d, a screen generation unit 202h, a screen display control unit 202i, a safety measure changing unit 202j, a BIM parts changing unit 202k, and The BIM model changing unit 202m is provided. Here, the integrated modeling unit 202d further includes a housing opening area calculation unit 202e, a safety measure necessary part specifying unit 202f, and a safety measure product arrangement unit 202g.

  Among these, the creation condition receiving unit 202 a is a creation condition receiving unit that receives a creation condition transmitted from the terminal device 100. Here, the creation conditions may be input by the user via the input unit 118 in the terminal device 100, or read from an external storage device (not shown) in which the creation conditions are stored in advance. It may be a thing.

  The elevator modeling unit 202b is an elevator modeling unit that creates elevator BIM parts corresponding to the creation conditions 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, a three-dimensional BIM part of an escalator as shown in FIG.

  The integrated modeling unit 202d is an integrated modeling unit that creates an integrated BIM model in which the elevator BIM parts created by the elevator modeling unit 202b are incorporated into the building BIM model stored in the BIM model database 206b. In the present embodiment, the integrated modeling unit 202d calculates a case opening area that is generated when a BIM part is installed in the BIM model, and an integrated BIM model in a state in which a safety measure product is arranged for the calculated case opening area (FIG. 6). The integrated BIM model shown in FIG.

  Here, when the BIM part includes an optional article related to the elevator, the integrated modeling unit 202d calculates an installation area of the optional article, and an integrated BIM model (see FIG. 7) in a state in which a safety measure product is arranged for the calculated installation area. The integrated BIM model shown in FIG. In addition, the integrated modeling unit 202d calculates a frame opening region generated when the BIM part changed by the BIM part changing unit 202k described later is installed in the BIM model stored in the BIM model database 206b, and the calculated frame You may create the integrated BIM model of the state which rearranged the safety measure goods with respect to an opening area | region. The integrated modeling unit 202d also converts the BIM part of the elevator created by the elevator modeling unit 202b or the BIM part changed by the BIM part changing unit 202k of the building changed by the BIM model changing unit 202m described later. An integrated BIM model may be created in a state in which a case opening area generated when installed in the BIM model is calculated, and safety measures for the calculated case opening area are rearranged. The integrated modeling unit 202d may store the created integrated BIM model in the storage unit 106 to construct an integrated BIM model database (not shown).

  In the present embodiment, the integrated modeling unit 202d further includes a housing opening area calculation unit 202e, a safety measure necessary part specifying unit 202f, and a safety measure product placement unit 202g.

  Among these, the frame opening area calculation unit 202e is a frame portion based on the positional relationship between the entire BIM part and the frame portion (ceiling, floor surface, column, wall surface, etc.) of the BIM model in a state where the BIM part is installed in the BIM model. And a space area in the BIM model based on the determined opening is calculated as a chassis opening area (such as the chassis opening area shown in FIG. 5).

  In addition, the safety measure-required location specifying unit 202f specifies a location (such as a location where safety measures are required) shown in FIG. 5 where safety measures are required for the chassis opening region calculated by the chassis opening region calculating unit 202e. This is a means to identify the location where measures are required. Here, the safety measure necessary part specifying unit 202f is provided in an installation area (such as an installation area shown in FIG. 7) of an optional product calculated when the BIM part includes an optional product related to an elevator (such as an optional product shown in FIG. 7). On the other hand, a location where safety measures are required may be specified.

  In addition, the safety measure product placement unit 202g places a safety measure product (such as the safety measure product shown in FIGS. 6 and 7) at a location where the safety measure is specified by the safety measure required location specifying unit 202f. This is a countermeasure product placement means.

  The screen generation unit 202h is a screen generation unit that generates a layout screen including the integrated BIM model created by the integrated modeling unit 202d. The screen generation unit 202h generates a layout screen including an integrated BIM model in which safety measures are arranged as shown in FIGS. 6 and 7, for example. Here, the screen generation unit 202h may generate a layout screen including the elevator BIM parts changed by the BIM parts changing unit 202k described later. The screen generation unit 202h may generate a layout screen including the BIM model of the building changed by the BIM model changing unit 202m described later.

  Further, the screen display control unit 202i transmits the layout screen generated by the screen generation unit 202h to the terminal device 100, and controls the screen display control unit to control the display unit 114 of the terminal device 100 to display the layout screen. It is.

  The safety measure changing unit 202j corresponds to a safety measure changing operation for changing a safety measure product by the user, which is detected on the layout screen displayed on the display unit 114 of the terminal device 100 by the screen display control unit 202i. When a control signal is received from the terminal device 100, it is a safety measure changing means for changing the safety measure product for the frame opening region in the integrated BIM model in accordance with the control signal corresponding to the safety measure changing operation.

  Here, when the control signal corresponding to the additional operation detected on the layout screen is received from the terminal device 100, the safety measure changing unit 202j includes the information in the integrated BIM model specified by the control signal corresponding to the additional operation. Add a safety product to the position. In addition, when the control signal corresponding to the deletion operation detected on the layout screen is received from the terminal device 100, the safety measure changing unit 202j performs safety in the integrated BIM model selected by the control signal corresponding to the deletion operation. Delete the countermeasure product. In addition, when the control signal corresponding to the moving operation detected on the layout screen is received from the terminal device 100, the safety measure changing unit 202j is positioned in the integrated BIM model specified by the control signal corresponding to the moving operation. Move safety measures product corresponding to.

  Also, the BIM parts changing unit 202k corresponds to a BIM parts changing operation for changing the BIM parts in the integrated BIM model detected on the layout screen displayed on the display unit 114 of the terminal device 100 by the screen display control unit 202i. When the control signal to be received is received from the terminal device 100, the BIM part changing unit changes the BIM part in the integrated BIM model according to the control signal corresponding to the BIM part changing operation.

  The BIM model changing unit 202m corresponds to a BIM model changing operation for changing the BIM model in the integrated BIM model detected on the layout screen displayed on the display unit 114 of the terminal device 100 by the screen display control unit 202i. When the control signal is received from the terminal device 100, the BIM part changing unit changes the BIM model in the integrated BIM model according to the control signal corresponding to the BIM model changing operation.

  In addition, the control unit 202 detects the user's installation operation for installing the BIM part created by the elevator modeling unit 202b in the planned installation area of the BIM part in the BIM model stored in the BIM model database 206b. Operation screen creation means for creating an operation screen may be further provided. In addition, the control unit 202 transmits an operation screen created by the operation screen creation unit to the terminal device 100, and an operation screen display control unit that controls the display unit 114 of the terminal device 100 to display the operation screen. Furthermore, you may provide. In this case, the integrated modeling unit 202d receives from the terminal device 100 a control signal corresponding to the installation operation detected via the operation screen displayed by the operation screen display control unit, and receives the control signal corresponding to the received installation operation. Depending on the case, the housing opening area generated when the BIM parts are installed in the planned installation area may be calculated, and an integrated BIM model in a state in which the safety measure product for the calculated housing opening area is arranged may be created.

  Above, description of an example of a structure of the BIM system in 2nd Embodiment is finished.

[Process of BIM System in Second Embodiment]
Next, an example of processing of the BIM system in the second embodiment configured as described above will be described in detail with reference to FIG. FIG. 15 is a flowchart illustrating an example of basic processing of the BIM system in the second embodiment.

  As illustrated in FIG. 15, first, the control unit 102 of the terminal device 100 transmits a creation condition input by the user to the server device 200 (step SB-10).

  Then, the creation condition receiving unit 202a of the server device 200 receives the creation condition transmitted by the process of the control unit 102 in step SB-10 (step SB-20).

  Then, the elevator modeling unit 202b of the server apparatus 200 stores the BIM parts of the elevator corresponding to the creation condition received by the process of the creation condition receiving unit 202a in step SB-20, in the part information database 206a. (Step SB-30). For example, the elevator modeling unit 202b creates an escalator BIM part as shown in FIG. Here, in step SB-30, the elevator modeling unit 202b may create BIM parts for a plurality of elevators that satisfy the creation condition.

  Then, the integrated modeling unit 202d of the server device 200 incorporates the elevator BIM parts created by the processing of the elevator modeling unit 202b in step SB-30 into the BIM model of the building stored in the BIM model database 206b. An integrated BIM model is created (step SB-40).

  In Step SB-40, the integrated modeling unit 202d executes an integrated BIM model creation process as shown in FIG. Specifically, as shown in FIG. 9, the integrated modeling unit 202d calculates a frame opening area generated when the BIM part is installed in the BIM model, and arranges safety measures for the calculated frame opening area. Create an integrated BIM model. In this case, for example, the integrated modeling unit 202d is in a state in which the BIM part of the escalator is incorporated in the BIM model of the building as shown in FIG. An integrated BIM model in a state in which (in the example of FIG. 6, a triangular guard, a handrail) is arranged is created.

  In Step SB-40, the integrated modeling unit 202d may execute an integrated BIM model creation process as shown in FIG. Specifically, as shown in FIG. 10, the integrated modeling unit 202d calculates the installation area of the optional article when the BIM part includes the optional article related to the elevator, and arranges the safety measure product for the calculated installation area. An integrated BIM model in the state may be created. In this case, the integrated modeling unit 202d, when an optional article (automatic operation pole in the example of FIG. 7) is installed near the escalator as shown in FIG. An integrated BIM model in which a safety measure product (partition plate in the example of FIG. 7) is arranged is created.

  Then, the screen generation unit 202h of the server device 200 generates a layout screen including the integrated BIM model created by the processing of the integrated modeling unit 202d in Step SB-40 (Step SB-50). In step SB-50, the screen generation unit 202h generates a layout screen including an integrated BIM model in which safety measures are arranged as shown in FIGS. 6 and 7, for example.

  Then, the screen display control unit 202i of the server device 200 transmits the layout screen generated by the processing of the screen generation unit 202h in Step SB-50 to the terminal device 100 (Step SB-60), and displays the layout screen. Control is performed so that the data is displayed on the display unit 114 of the terminal device 100 (step SB-70). In Step SB-60 to Step SB-70, the screen display control unit 202i transmits to the terminal device 100 a layout screen including an integrated BIM model in which safety measures are arranged, for example, as shown in FIGS. The layout screen is controlled to be displayed on the display unit 114 of the terminal device 100.

  Then, the control unit 102 of the terminal device 100 performs safety by the user on the layout screen displayed on the display unit 114 of the terminal device 100 by the processing of the screen display control unit 202i in Step SB-60 to Step SB-70. It is determined whether or not a safety measure changing operation for changing the countermeasure product is detected (step SB-80).

  When the control unit 102 of the terminal device 100 determines that the safety measure change operation is detected in Step SB-80 (Step SB-80: Yes), the control unit 102 outputs a control signal corresponding to the detected safety measure change operation. It transmits to the server apparatus 200. Then, the safety measure changing unit 202j of the server device 200 responds to the frame opening region in the integrated BIM model according to the control signal corresponding to the safety measure changing operation transmitted by the process of the control unit 102 in step SB-80. The safety measure product is changed (step SB-90). Thereafter, the process proceeds to step SB-50. In step SB-50, a layout screen reflecting the changed safety measure product is generated. In steps SB-60 to SB-70, the generated layout screen is displayed as a terminal device. 100 display units 114.

  On the other hand, when it determines with the control part 102 of the terminal device 100 not having detected safety countermeasure change operation in step SB-80 (step SB-80: No), this process is complete | finished.

  The details of the determination process in step SB-80 and the safety measure change process in step SB-90 in FIG. 15 are as follows. Control signals corresponding to various safety measure change operations are transmitted from the terminal device 100 to the server device 200. Since the apparatus 200 is basically the same as FIG. 11 except that various safety countermeasure changing processes are executed in accordance with the control signal, description of the details of the processes will be omitted. In addition, regarding the BIM part change process and the BIM model change process executed in the second embodiment, control signals respectively corresponding to the BIM part change operation and the BIM model change operation are transmitted from the terminal device 100 to the server device 200. Since the server apparatus 200 is basically the same as FIG. 12 and FIG. 13 except that the BIM parts change process and the BIM model change operation are executed in response to the control signal, description of details of the process is omitted. To do.

  Above, description of an example of the process of the BIM system in 2nd Embodiment is finished.

  Note that the BIM system (server-driven type) according to the second embodiment has the same effects as the BIM system (functional distribution type) according to the first embodiment described above.

[Third Embodiment]
Subsequently, a third embodiment will be described below with reference to FIGS. 16 and 17. Here, FIG. 16 is a block diagram showing an example of the configuration of the BIM system in the third embodiment, and conceptually shows a part related to the present embodiment in the configuration. Here, the BIM system in the third embodiment is realized by the BIM device 400 configured as a stand-alone type and performing processing alone.

  In the third embodiment, all functions are integrated into the BIM device 400, and the BIM device 400 creates elevator BIM parts corresponding to the creation conditions input by the user. And has a function of creating an integrated BIM model in which BIM parts are incorporated into a BIM model of a building. Further, the BIM device 400 has a function of generating a layout screen including the integrated BIM model and displaying the layout screen on the display unit 414. Here, the BIM apparatus 400 calculates a case opening area that is generated when the BIM parts are installed in the BIM model, and creates an integrated BIM model in a state in which a safety measure product is arranged for the calculated case opening area. Thus, the third embodiment differs from the other embodiments in that the BIM device 400 is configured as a stand-alone type and performs processing alone.

[Configuration of BIM System in Third Embodiment]
First, an example of the configuration of the BIM system in the third embodiment will be described below with reference to FIG.

  As illustrated in FIG. 16, the BIM device 400 according to the third embodiment includes at least an output unit (display unit 414 and audio output unit 416), an input unit 418, a control unit 402, and a storage unit 406. Each unit of these BIM devices 400 may be connected to be communicable via an arbitrary communication path. The BIM device 400 may be, for example, various information processing terminals such as a PND (Portable Navigation Device), various information processing devices such as a notebook personal computer, or a mobile terminal device such as a mobile phone, PHS, or PDA. Good. Further, the BIM device 400 may be connected to an external device so as to be able to communicate with each other via a communication control interface unit (not shown).

  In FIG. 16, the functions of the input / output control interface unit 408, the display unit 414, the audio output unit 416, and the input unit 418 are the same as those in the first embodiment, and thus description thereof is omitted. Further, each function of the storage unit 406 (part information database 406a, BIM model database 406b, etc.) is the same as that of the first embodiment except that it is provided in the BIM device 400 instead of the server device 200. The description is omitted because it is similar.

  As for each part of the control unit 402, each function is basically the same as that of the first embodiment, except that the BIM device 400 of the present embodiment is a stand-alone type and the control unit 402 does not include each transmission unit. It is the same.

  In FIG. 16, the control unit 402 has an internal memory for storing a control program such as an OS, a program defining various processing procedures, and necessary data. And the control part 402 performs the information processing for performing various processes with these programs. In terms of functional concept, the control unit 402 includes a creation condition setting unit 402a, an elevator modeling unit 402b, an integrated modeling unit 402c, a screen generation unit 402g, a screen display unit 402h, a safety measure changing unit 402i, a BIM parts changing unit 402j, and A BIM model changing unit 402k is provided. Here, the integrated modeling unit 402c further includes a housing opening area calculation unit 402d, a safety measure necessary part specifying unit 402e, and a safety measure product arrangement unit 402f.

  Among these, the creation condition setting unit 402a is creation condition setting means for setting a creation condition input by the user. Here, the creation conditions may be input by the user via the input unit 418 or read from an external storage device (not shown) in which the creation conditions are stored in advance. Also good.

  The elevator modeling unit 402b is an elevator modeling unit that creates elevator BIM parts corresponding to the creation conditions set by the creation condition setting unit 402a using the part information stored in the part information database 406a. The elevator modeling unit 402b creates, for example, a three-dimensional BIM part of an escalator as shown in FIG.

  The integrated modeling unit 402c is an integrated modeling unit that creates an integrated BIM model in which the elevator BIM parts created by the elevator modeling unit 402b are incorporated into the building BIM model stored in the BIM model database 406b. In the present embodiment, the integrated modeling unit 402c calculates a case opening area generated when a BIM part is installed in the BIM model, and an integrated BIM model in a state in which a safety measure product is arranged for the calculated case opening area (FIG. 6). The integrated BIM model shown in FIG.

  Here, when the BIM part includes an optional article related to the elevator, the integrated modeling unit 402c calculates an installation area of the optional article, and an integrated BIM model in a state in which a safety measure product is arranged for the calculated installation area (FIG. 7). The integrated BIM model shown in FIG. Further, the integrated modeling unit 402c calculates a frame opening region generated when the BIM part changed by the BIM part changing unit 402j described later is installed in the BIM model stored in the BIM model database 406b, and the calculated frame You may create the integrated BIM model of the state which rearranged the safety measure goods with respect to an opening area | region. Further, the integrated modeling unit 402c converts the BIM part of the elevator created by the elevator modeling unit 402b or the BIM part changed by the BIM part changing unit 402j of the building changed by the BIM model changing unit 402k described later. An integrated BIM model may be created in a state in which a case opening area generated when installed in the BIM model is calculated, and safety measures for the calculated case opening area are rearranged. The integrated modeling unit 402c may store the created integrated BIM model in the storage unit 406 to construct an integrated BIM model database (not shown).

  In the present embodiment, the integrated modeling unit 402c further includes a housing opening area calculation unit 402d, a safety measure necessity location specifying unit 402e, and a safety measure product placement unit 402f.

  Among these, the frame opening area calculation unit 402d has a frame part based on the positional relationship between the entire BIM part and the frame part (ceiling, floor, column, wall surface, etc.) of the BIM model in a state where the BIM part is installed in the BIM model. And a space area in the BIM model based on the determined opening is calculated as a chassis opening area (such as the chassis opening area shown in FIG. 5).

  In addition, the safety measure-required location specifying unit 402e specifies a location (for example, the location required for the safety measure shown in FIG. 5) where a safety measure is required for the case opening region calculated by the case opening region calculating unit 402d. This is a means to identify the location where measures are required. Here, the safety measure necessary part specifying unit 402e is provided in the installation area (such as the installation area shown in FIG. 7) of the optional goods calculated when the BIM part includes the optional goods related to the elevator (the optional goods shown in FIG. 7). On the other hand, a location where safety measures are required may be specified.

  In addition, the safety measure product placement unit 402f places a safety measure product (such as the safety measure product shown in FIGS. 6 and 7) in a location where the safety measure is specified by the safety measure required location specifying unit 402e. This is a countermeasure product placement means.

  The screen generation unit 402g is a screen generation unit that generates a layout screen including the integrated BIM model created by the integrated modeling unit 402c. The screen generation unit 402g generates a layout screen including an integrated BIM model in which safety measures are arranged as shown in FIGS. 6 and 7, for example. Here, the screen generation unit 402g may generate a layout screen including the elevator BIM parts changed by the BIM parts changing unit 402j described later. The screen generation unit 402g may generate a layout screen including the BIM model of the building changed by the BIM model changing unit 402k described later.

  The screen display unit 402h is a screen display unit that causes the display unit 414 to display the layout screen generated by the screen generation unit 402g.

  The safety measure changing unit 402i performs a safety measure changing operation when a safety measure changing operation for changing a safety measure product by the user is detected on the layout screen displayed on the display unit 114 by the screen display unit 402h. Accordingly, it is a safety measure changing means for changing the safety measure product for the frame opening region in the integrated BIM model.

  Here, when an additional operation is detected on the layout screen, the safety measure changing unit 402i adds the safety measure product to the position in the integrated BIM model designated by the additional operation. In addition, when a delete operation is detected on the layout screen, the safety measure changing unit 402i deletes the safety measure product in the integrated BIM model selected by the delete operation. In addition, when a movement operation is detected on the layout screen, the safety countermeasure changing unit 402i moves a safety countermeasure product corresponding to the position in the integrated BIM model specified by the movement operation.

  The BIM parts changing unit 402j performs the BIM parts changing operation when a BIM parts changing operation for changing the BIM parts in the integrated BIM model is detected on the layout screen displayed on the display unit 414 by the screen display unit 402h. The BIM part changing means for changing the BIM part in the integrated BIM model according to the above.

  Further, when a BIM model change operation for changing the BIM model in the integrated BIM model is detected on the layout screen displayed on the display unit 414 by the screen display unit 402h, the BIM model change unit 402k performs the BIM model change operation. The BIM part changing means for changing the BIM model in the integrated BIM model according to the above.

  In addition, the control unit 402 detects the user's installation operation for installing the BIM part created by the elevator modeling unit 402b in the planned installation area of the BIM part in the BIM model stored in the BIM model database 406b. Operation screen creation means for creating an operation screen may be further provided. The control unit 402 may further include an operation screen display unit that causes the display unit 114 to display the operation screen created by the operation screen creation unit. In this case, the integrated modeling unit 402c calculates a frame opening area that is generated when the BIM parts are installed in the planned installation area according to the installation operation detected via the operation screen displayed by the operation screen display unit. You may create the integrated BIM model of the state which has arrange | positioned the safety measure goods with respect to the calculated housing opening area | region.

  Above, description of an example of a structure of the BIM system in 3rd Embodiment is finished.

[Process of BIM System in Third Embodiment]
Next, an example of processing of the BIM system in the third embodiment configured as described above will be described in detail below with reference to FIG. FIG. 17 is a flowchart illustrating an example of basic processing of the BIM system in the third embodiment.

  As shown in FIG. 17, first, the creation condition setting unit 402a sets a creation condition input by the user (step SC-10).

  Then, the elevator modeling unit 402b creates a BIM part of the elevator corresponding to the creation condition set by the process of the creation condition setting unit 402a in step SC-10 using the part information stored in the part information database 406a. (Step SC-20). For example, the elevator modeling unit 402b creates an escalator BIM part as shown in FIG. Here, in step SC-20, the elevator modeling unit 402b may create a plurality of elevator BIM parts that satisfy the creation conditions.

  Then, the integrated modeling unit 402c incorporates an integrated BIM model in which the elevator BIM parts created by the processing of the elevator modeling unit 402b in step SC-20 are incorporated into the building BIM model stored in the BIM model database 406b. Create (step SC-30).

  In step SC-30, the integrated modeling unit 402c executes an integrated BIM model creation process as shown in FIG. Specifically, as shown in FIG. 9, the integrated modeling unit 402c calculates a frame opening area that occurs when a BIM part is installed in the BIM model, and a state in which a safety measure product is arranged for the calculated frame opening area Create an integrated BIM model. In this case, the integrated modeling unit 402c is a state in which the BIM part of the escalator is incorporated in the BIM model of the building as shown in FIG. An integrated BIM model in a state in which (in the example of FIG. 6, a triangular guard, a handrail) is arranged is created.

  In step SC-30, the integrated modeling unit 402c may execute an integrated BIM model creation process as shown in FIG. Specifically, as shown in FIG. 10, the integrated modeling unit 402 c calculates the installation area of the optional product when the BIM part includes the optional product related to the elevator, and arranges the safety measure product for the calculated installation area. An integrated BIM model in the state may be created. In this case, the integrated modeling unit 402c, when an optional article (automatic operation pole in the example of FIG. 7) is installed in the vicinity of the escalator as shown in FIG. An integrated BIM model in which a safety measure product (partition plate in the example of FIG. 7) is arranged is created.

  Then, the screen generation unit 402g generates a layout screen including the integrated BIM model created by the processing of the integrated modeling unit 402c in step SC-30 (step SC-40). In step SC-40, the screen generation unit 402g generates a layout screen including an integrated BIM model in which safety measures are arranged, for example, as shown in FIGS.

  Then, the screen display unit 402h causes the display unit 414 to display the layout screen generated by the process of the screen generation unit 402g in Step SC-40 (Step SC-50). In step SC-50, the screen display unit 402h causes the display unit 414 to display a layout screen including an integrated BIM model in which safety measures are arranged, for example, as shown in FIGS.

  Then, the control unit 402 determines whether or not a safety measure changing operation for changing the safety measure product by the user is detected on the layout screen displayed on the display unit 414 by the process of the screen display unit 402h in step SC-50. Is determined (step SC-60).

  When it is determined in step SC-60 that the safety measure change operation has been detected by the process of the control unit 402 (step SC-60: Yes), the safety measure change unit 402i determines the detected safety measure change operation. In response, the safety measure product for the frame opening region in the integrated BIM model is changed (step SC-70). Thereafter, the control unit 402 causes the display unit 414 to display a layout screen including the changed safety measure product, and then ends this process.

  On the other hand, when it is determined that the safety measure change operation has not been detected in Step SC-60 (Step SC-60: No), the control unit 402 does not execute the safety measure change process in Step SC-70. This process ends.

  The details of the determination process in step SC-60 and the safety measure change process in step SC-70 in FIG. 17 are the same as those in FIG. Also, the BIM part change process and the BIM model change process executed in the third embodiment are the same as those in FIGS. 12 and 13, and therefore, detailed description of the process is omitted.

  Above, description of an example of the process of the BIM system in 4th Embodiment is finished.

  Note that the BIM system (stand-alone type) according to the fourth embodiment also has the same effects as the BIM system (functional distribution type) according to the first embodiment described above.

[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 has been described as an example of an elevator, but the present invention can be similarly applied to passenger conveyors such as elevators and moving walkways.

  In addition, among the processes described in the embodiment, all or part of the processes described as being automatically performed can be performed manually, or the processes described as being performed manually can be performed. All or 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, the server device 200, and the BIM device 400, the illustrated components are functionally conceptual, and need not be physically configured as illustrated.

  For example, the processing functions provided in each device of the terminal device 100, the server device 200, and the BIM device 400, in particular, the processing functions performed by the control unit 102, the control unit 202, and the control unit 402 are all or An arbitrary part may be realized by a CPU (Central Processing Unit) and 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, the server device 200, and the BIM device 400 as necessary. That is, in the storage unit 106 such as a ROM or HDD, the storage unit 206, and the storage unit 406 are recorded with a computer program for giving instructions to the CPU and performing various processes in cooperation with the OS (Operating System). Has been. 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, the server device 200, and the BIM device 400 via an arbitrary network 300, and all of them may be stored as necessary. It is also possible to download a part.

  In addition, 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” is any memory card, USB memory, SD card, flexible disk, magneto-optical disk, ROM, EPROM, EEPROM, CD-ROM, MO, DVD, Blu-ray Disc, etc. Of “portable physical media”.

  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, the storage unit 206, and the storage unit 406 (BIM model database 106a, parts information database 206a, BIM model database 206b, parts information database 406a, and BIM model database 406b) Storage devices such as RAM, ROM, fixed disk devices such as hard disks, flexible disks, and optical disks, and various programs, tables, databases, and web pages used for various processing and website provision Stores files etc.

  Further, the terminal device 100, the server device 200, and the BIM device 400 may be configured as an information processing device such as a known personal computer or workstation, and an arbitrary peripheral device is connected to the information processing device. May be configured. Further, the terminal device 100, the server device 200, and the BIM device 400 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, the server device, the terminal device, the method, and the program according to the embodiment and the modification described above, as a result, when the equipment plan for the elevator is proposed, the state in which the elevator is incorporated in the building is visually Can be displayed in an easy-to-understand manner.

[Appendix]
In the BIM system of the embodiment, the control unit detects a BIM part change operation for changing the BIM part in the integrated BIM model on the layout screen displayed on the display unit by the screen display unit. A BIM part changing unit that changes the BIM part in the integrated BIM model in response to the BIM part changing operation, wherein the integrated modeling unit is configured to change the BIM part changed by the BIM part changing unit. Is calculated in the BIM model stored in the BIM model storage means, and the integrated BIM model in a state in which the safety measure product is rearranged in the calculated case opening area is calculated. It is preferable to create

  In the BIM system of the embodiment, the control unit detects a BIM model change operation for changing the BIM model in the integrated BIM model on the layout screen displayed on the display unit by the screen display unit. A BIM model changing means for changing the BIM model in the integrated BIM model in response to the BIM model changing operation, wherein the integrated modeling means includes the BIM part created by the elevator modeling means, Alternatively, the case opening area generated when the BIM part changed by the BIM part changing unit is installed in the BIM model changed by the BIM model changing unit is calculated, and the calculated case opening area is calculated. Create the integrated BIM model with the safety measures relocated. It is preferable to.

  In the BIM system according to the present embodiment, when the BIM part includes an optional article related to an elevator, the integrated modeling unit calculates an installation area of the optional article, and arranges the safety measure product for the calculated installation area. Preferably, the integrated BIM model of the state is created.

  The server device of the embodiment is a server device including at least a control unit and a storage unit that are communicably connected to a terminal device including at least a display unit, and the storage unit creates a BIM part of the elevator Part information storage means for storing part information for performing, and the control unit stores the BIM part corresponding to the creation condition transmitted from the terminal device in the part information storage means. And an information providing means for transmitting the BIM part created by the elevator modeling means to the terminal device. In the terminal device, from the server device by the information providing means. An integrated BIM model is created by incorporating the transmitted BIM part into a BIM model of a building, and the integrated BIM A layout screen including a Dell is generated, the layout screen is displayed on the display unit, and the integrated BIM model calculates a case opening region generated when the BIM part is installed in the BIM model, and the case opening region It is created in a state where safety measures products are arranged.

  A terminal device according to an embodiment is a terminal device including at least a control unit, a storage unit, and a display unit that are communicably connected to a server device, and the storage unit stores a BIM model of a building. Model storage means, and the control unit creates the BIM part corresponding to the creation condition transmitted from the terminal device, created using part information for creating the BIM part of the elevator in the server device. An integrated modeling means for creating an integrated BIM model received from the server device and incorporating the BIM part into the BIM model stored in the BIM model storage means, and the integrated BIM created by the integrated modeling means Screen generating means for generating a layout screen including a model, and the layout image generated by the screen generating means Screen display means for displaying on the display unit, wherein the integrated modeling means calculates a body opening area generated when the BIM part is installed in the BIM model, and safety for the calculated body opening area is calculated. The integrated BIM model in a state where countermeasure products are arranged is created.

  The BIM system of the embodiment is 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 display unit are connected to be communicable, and the storage unit is a building BIM model storage means for storing the BIM model, and parts information storage means for storing part information for creating the BIM parts of the elevator that can be incorporated into the BIM model. Elevator modeling means for creating the BIM part corresponding to the creation condition input by using the part information stored in the part information storage means, and the BIM part created by the elevator modeling means, Integrated modelin for creating an integrated BIM model incorporated in the BIM model stored in the BIM model storage means Means for generating a layout screen including the integrated BIM model created by the integrated modeling means, and transmitting the layout screen generated by the screen generating means to the terminal device. Screen display control means for controlling the display to be displayed on the display unit, wherein the integrated modeling means calculates a frame opening area generated when the BIM part is installed in the BIM model, and the calculated The integrated BIM model in a state in which a safety measure product is arranged for the frame opening region is created.

  A method according to an embodiment is a method executed in a server device including at least a control unit and a storage unit, which is communicably connected to a terminal device including at least a display unit, and the storage unit is an elevator Part information storage means for storing part information for creating a BIM part, and the part information storage means for executing the BIM part corresponding to the creation condition transmitted from the terminal device, which is executed in the control unit. In the terminal device, the elevator modeling step created using the part information stored in the elevator, and the information providing step for transmitting the BIM part created in the elevator modeling step to the terminal device, The BIM part transmitted from the server device in the information providing step is incorporated into the BIM model of the building An integrated BIM model is created, a layout screen including the integrated BIM model is generated, the layout screen is displayed on the display unit, and the integrated BIM model is a casing generated when the BIM parts are installed in the BIM model An opening area is calculated, and is created in a state where a safety measure product is arranged for the housing opening area.

  The method according to the embodiment is a method that is executed in a terminal device that includes at least a control unit, a storage unit, and a display unit that are communicably connected to a server device, and the storage unit is a BIM model of a building A creation condition transmitted from the terminal device, which is created using part information for creating a BIM part of an elevator in the server device, which is executed in the control unit. An integrated modeling step of generating an integrated BIM model in which the BIM part corresponding to the BIM model is received from the server device and the BIM part is incorporated into the BIM model stored in the BIM model storage means; and the integrated modeling step A screen generation step of generating a layout screen including the integrated BIM model created in And a screen display step for displaying the layout screen generated in the surface generation step on the display unit, and in the integrated modeling step, a case opening region generated when the BIM part is installed in the BIM model is calculated. Then, the integrated BIM model in a state in which a safety measure product is arranged for the calculated housing opening region is created.

  A method according to an embodiment is 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 display unit are connected to be able to communicate with each other. Comprises a BIM model storage means for storing a BIM model of a building, and a part information storage means for storing part information for creating a BIM part of an elevator that can be incorporated into the BIM model. The BIM part corresponding to the creation condition input by the user is created using the part information stored in the part information storage means and created in the elevator modeling step. Integration of the BIM part into the BIM model stored in the BIM model storage means An integrated modeling step for creating an IM model, a screen generation step for generating a layout screen including the integrated BIM model created in the integrated modeling step, and the layout screen generated in the screen generation step as the terminal And a screen display control step for controlling the display to be displayed on the display unit of the terminal device. In the integrated modeling step, a housing opening generated when the BIM part is installed in the BIM model A region is calculated, and the integrated BIM model in a state where a safety measure product is arranged for the calculated housing opening region is created.

  The program according to the embodiment is a program for causing a BIM system including at least a control unit, a storage unit, and a display unit to execute the program, and the storage unit stores a BIM model storage unit that stores a BIM model of a building, Part information storage means for storing part information for creating a BIM part of an elevator that can be incorporated into a BIM model, and in the control unit, the BIM part corresponding to a creation condition input by a user The elevator modeling step created using the part information stored in the parts information storage means, and the BIM part created in the elevator modeling step are stored in the BIM model stored in the BIM model storage means. Integrated modeling step for creating an integrated BIM model, and the integrated modeling A screen generation step of generating a layout screen including the integrated BIM model created in step, and a screen display step of displaying the layout screen generated in the screen generation step on the display unit; In the integrated modeling, calculating a frame opening area generated when the BIM parts are installed in the BIM model, and creating the integrated BIM model in a state where safety measures are arranged for the calculated frame opening area. Features.

  A program according to an embodiment is a program for causing a server device including at least a control unit and a storage unit, connected to a terminal device including at least a display unit to be communicable, the storage unit including an elevator Part information storage means for storing part information for creating a BIM part of the device, and the control unit stores the BIM part corresponding to a creation condition transmitted from the terminal device in the part information storage means An elevator modeling step that is created using the part information that has been created, and an information provision step that transmits the BIM part created in the elevator modeling step to the terminal device. In the providing step, the BIM part transmitted from the server device is assembled into a BIM model of a building. The integrated BIM model is created, a layout screen including the integrated BIM model is generated, the layout screen is displayed on the display unit, and the integrated BIM model is displayed when the BIM part is installed in the BIM model. The generated chassis opening area is calculated, and is created in a state where a safety measure product is arranged for the casing opening area.

  A program according to an embodiment is a program for causing a terminal device, which is connected to a server device to be communicable and includes at least a control unit, a storage unit, and a display unit, to execute the program, and the storage unit is a building BIM BIM model storage means for storing a model, and corresponding to the creation condition transmitted from the terminal device, which is created by using the part information for creating the BIM part of the elevator in the server device in the control unit The integrated modeling step of receiving the BIM part to be received from the server device and creating the integrated BIM model in which the BIM part is incorporated in the BIM model stored in the BIM model storage unit; A screen generation step for generating a layout screen including the created integrated BIM model; A screen display step for displaying the layout screen generated in the screen generation step on the display unit is executed, and in the integrated modeling step, a housing opening region generated when the BIM part is installed in the BIM model The integrated BIM model in a state where safety measures are arranged for the calculated enclosure opening region is created.

100 terminal device 102 control unit
102a Creation condition transmitter
102b Information acquisition unit
102c Integrated Modeling Department
102d Body opening area calculation unit
102e Safety measures necessary part identification part
102f Safety measure placement section
102g screen generator
102h Screen display
102i Safety measures change department
102j BIM parts change part
102k BIM model change unit 104 communication control interface unit 106 storage unit
106a 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 Creation condition receiver
202b Elevator modeling unit
202c Information provision department
202d Integrated Modeling Department
202e Body opening area calculation unit
202f Safety measures necessary part identification part
202g Safety measures placement section
202h Screen generator
202i screen display control unit
202j Safety measures change department
202k BIM parts change part
202m BIM model change unit 204 Communication control interface unit 206 Storage unit
206a Parts information database
206b BIM model database 300 network 400 BIM device 402 control unit
402a Creation condition setting section
402b Elevator modeling unit
402c Integrated modeling unit
402d Housing Opening Area Calculation Unit
402e Safety Measure Required Location Identification Department
402f Safety measure placement section
402g Screen generator
402h Screen display
402i Safety Measure Change Department
402j BIM parts change part
402k BIM model change unit 406 storage unit
406a Parts information database
406b BIM model database 408 Input / output control interface unit 414 Display unit 416 Audio output unit 418 Input unit

Claims (6)

A BIM system including at least 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 for creating BIM parts of an elevator that can be incorporated into the BIM model;
With
The controller is
Elevator modeling means for creating the BIM part corresponding to the creation condition input by the user using the part information stored in the part information storage means;
Integrated modeling means for creating an integrated BIM model in which the BIM part created by the elevator modeling means is incorporated into the BIM model stored in the BIM model storage means;
Screen generating means for generating a layout screen including the integrated BIM model created by the integrated modeling means;
Screen display means for causing the display section to display the layout screen generated by the screen generation means;
With
The integrated modeling means includes
A BIM system that calculates a case opening area generated when the BIM part is installed in the BIM model and creates the integrated BIM model in a state in which a safety measure product is arranged for the calculated case opening area. . The controller is
When a safety measure change operation for changing the safety measure product by the user is detected on the layout screen displayed on the display unit by the screen display means, the integration is performed according to the safety measure change operation. Safety measure changing means for changing the safety measure product for the frame opening region in the BIM model;
The BIM system according to claim 1, further comprising: The safety measure changing operation includes an add operation for adding the safety measure product, a delete operation for deleting the safety measure product, and a move operation for moving the arrangement position of the safety measure product,
The safety measure changing means is
When the addition operation is detected on the layout screen, the safety measure product is added to the position in the integrated BIM model designated by the addition operation,
If the delete operation is detected on the layout screen, delete the safety measure product in the integrated BIM model selected by the delete operation,
3. The BIM according to claim 2, wherein when the movement operation is detected on the layout screen, the safety measure product corresponding to the position in the integrated BIM model designated by the movement operation is moved. system. 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 storage unit, and a display unit are communicably connected,
The storage unit of the server device is
Parts information storage means for storing part information for creating BIM parts of an elevator that can be incorporated into a BIM model of a building;
With
The control unit of the server device includes:
Elevator modeling means for creating the BIM part corresponding to the creation condition transmitted from the terminal device using the parts information stored in the parts information storage means;
Information providing means for transmitting the BIM part created by the elevator modeling means to the terminal device;
With
The storage unit of the terminal device is
BIM model storage means for storing the BIM model;
With
The control unit of the terminal device is
Integrated modeling means for creating an integrated BIM model in which the BIM part transmitted from the server device by the information providing means is incorporated in the BIM model stored in the BIM model storage means;
Screen generating means for generating a layout screen including the integrated BIM model created by the integrated modeling means;
Screen display means for causing the display section to display the layout screen generated by the screen generation means;
With
The integrated modeling means includes
A BIM system that calculates a case opening area generated when the BIM part is installed in the BIM model and creates the integrated BIM model in a state in which a safety measure product is arranged for the calculated case opening area. . A method executed in a BIM system including at least 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 for creating BIM parts of an elevator that can be incorporated into the BIM model;
With
Executed in the control unit,
Elevator modeling step for creating the BIM part corresponding to the creation condition input by the user using the part information stored in the part information storage unit;
An integrated modeling step of creating an integrated BIM model in which the BIM part created in the elevator modeling step is incorporated into the BIM model stored in the BIM model storage unit;
A screen generation step for generating a layout screen including the integrated BIM model created in the integrated modeling step;
A screen display step for displaying the layout screen generated in the screen generation step on the display unit;
Including
In the integrated modeling,
A method of calculating a housing opening area generated when the BIM part is installed in the BIM model, and creating the integrated BIM model in a state in which a safety measure product is arranged for the calculated housing opening area. 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 storage unit, and a display unit are communicably connected,
The storage unit of the server device is
Parts information storage means for storing part information for creating BIM parts of an elevator that can be incorporated into a BIM model of a building;
With
The storage unit of the terminal device is
BIM model storage means for storing the BIM model;
With
Elevator modeling step of creating the BIM part corresponding to the creation condition transmitted from the terminal device, using the part information stored in the part information storage unit, executed in the control unit of the server device; ,
An information providing step of transmitting the BIM part created in the elevator modeling step to the terminal device, which is executed in the control unit of the server device;
An integrated BIM model is created by incorporating the BIM part transmitted from the server device in the information providing step executed in the control unit of the terminal device into the BIM model stored in the BIM model storage unit An integrated modeling step to
A screen generation step for generating a layout screen including the integrated BIM model created in the integrated modeling step, which is executed in the control unit of the terminal device;
A screen display step of causing the display unit to display the layout screen generated in the screen generation step, which is executed in the control unit of the terminal device;
Including
In the integrated modeling step,
A method of calculating a housing opening area generated when the BIM part is installed in the BIM model, and creating the integrated BIM model in a state in which a safety measure product is arranged for the calculated housing opening area.

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