JP2014010651A - Bim system and server device, terminal device, method and program therefor - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a BIM system and a server device, a terminal device, a method and a program therefor that are capable of preventing leakage of technical data during design of elevators and buildings.SOLUTION: A BIM system is configured by communicatively connecting a server device and a terminal device. The server device produces BIM parts of an elevator that meet manufacturing conditions which are transmitted from the terminal device and include at least hoistway space information that defines a hoistway space required to install the elevator in a building, using part information stored in a storage unit, and transmits the produced BIM parts of the elevator to the terminal device. The terminal device has a display unit display an image of the BIM parts transmitted from the server device as installed in the hoistway space.

Description

  Embodiments described herein relate generally to a BIM system, a server device, a terminal device, a method, and a program.

  Conventionally, when examining the hoistway space necessary for installing the elevator in the building, the elevator with technical know-how that can examine the specifications of the elevator, equipment examination, traffic calculation, hoistway equipment storage etc. The manufacturer's engineer had to do it. Here, in order to advance the design of the elevator and the building efficiently, it is desirable to share technical data among the traders such as the engineer of the elevator manufacturer, the person in charge of the construction company, and the designer of the design company. In this case, it is necessary to consider security aspects to prevent the leakage of technical data. Therefore, in recent years, there has been a demand for a technique that can prevent the leakage of technical data when designing elevators and buildings.

JP 2010-262580 A

  The problem to be solved by the present invention is to provide a BIM system, a server device, a terminal device, a method, and a program capable of preventing leakage of technical data when designing an elevator and a building.

  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 control unit and a display unit are connected to be communicable. The storage unit of the server device includes 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. The said control part of the said server apparatus is the said BIM corresponding to the creation conditions which contain the hoistway space information which prescribed | regulated the hoistway space required for installing the said elevator in the said building transmitted from the said terminal device at least Elevator modeling means for creating parts using the part information stored in the parts information storage means; and information providing means for transmitting the BIM parts created by the elevator modeling means to the terminal device. . The control unit of the terminal device includes a screen display unit that displays the BIM part transmitted from the server device by the information providing unit on the display unit in a state where the BIM part is installed in the hoistway space.

FIG. 1 is a conceptual diagram showing an example of a building design book and a BIM model. FIG. 2 is a block diagram illustrating an example of the configuration of the BIM system in the embodiment. FIG. 3 is a flowchart illustrating an example of basic processing of the BIM system in the embodiment. FIG. 4 is a diagram illustrating an example of hoistway space information that defines hoistway space necessary for installing the elevator in a building. FIG. 5 is a flowchart illustrating an example of hoistway space information acquisition processing in the embodiment. FIG. 6 is a diagram illustrating an example of a hoistway space model simulating a hoistway. FIG. 7 is a diagram for explaining a user's installation operation for installing the hoistway space model in the planned installation area in the BIM model. FIG. 8 is a diagram illustrating an example of building information regarding a building in which an elevator is installed. FIG. 9A is a diagram illustrating an example of elevator specification information regarding the specification of the elevator. FIG. 9B is a diagram showing another example of elevator specification information. FIG. 10A is a diagram illustrating an example of simple perspective representing an elevator. FIG. 10B is a diagram illustrating another example of simple parsing. FIG. 11A is a diagram illustrating an example of a state in which BIM parts are incorporated into a hoistway space model. FIG. 11B is a diagram showing another example of a state in which BIM parts are incorporated in a hoistway space model. FIG. 12 is a diagram illustrating an example of a cross-sectional view of the hoistway space model illustrated in FIG. 11B. FIG. 13 is a flowchart illustrating an example of a simulation execution process in the embodiment. FIG. 14A is a diagram illustrating an example of a reaction force calculation result as an example of a simulation result. FIG. 14B is a diagram illustrating an example of a traffic calculation result as an example of a simulation result. FIG. 15 is a flowchart illustrating an example of update processing according to the embodiment. FIG. 16 is a block diagram illustrating an example of a configuration of a BIM system in a modification of the 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, with reference to FIG. 1, an outline of BIM (building information modeling) used in the embodiment will be described. FIG. 1 is a conceptual diagram showing an example of a building design book and a BIM model. FIG. 1 shows a difference between a design method based on a building design book and a design method based on BIM. As shown on the left side of FIG. 1, in the design method based on the building design document, each industry involved in building design individually creates specialized drawings, so each must have relevance and consistency. There is. That is, in a design method using a building design book, for example, the related design book needs to be corrected, and its consistency must be checked. On the other hand, the BIM design method shown on the right side of FIG. 1 can share a three-dimensional model of a building (that is, a BIM model of a building) that is data for the entire building in each type of business. You can check relevance and consistency above.

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

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

[Configuration of BIM system]
An example of the configuration of the BIM system in the present 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 present embodiment, and conceptually shows only the main part of the configuration.

  As shown in FIG. 2, the BIM system of this 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 BIM applications. Etc. are connected to be communicable with each other. As shown in FIG. 2, the communication includes, for 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 this embodiment, the server device 200 generally includes at least a control unit 202 and a storage unit 206, and the terminal device 100 includes an output unit (display unit 114 and The audio output unit 116), the input unit 118, the control unit 102, and the storage unit 106 are provided at least.

[Configuration of Server Device 200]
In FIG. 2, the server device 200 transmits a BIM part corresponding to a creation condition transmitted from the terminal device 100 and including at least hoistway space information that defines hoistway space necessary for installing the elevator in the building. It has a function of creating using the part information stored in the storage unit 206 and transmitting the created BIM part 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 HDD (Hard Disk Drive) or storage means such as SSD (Solid State Drive), and stores various databases and tables (part information database 206a, calculation formula file 206b, etc.). .

  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. The part information includes any information necessary for the user to design the elevator BIM parts to be incorporated into the BIM model of the building. 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 structural information such as member strength, price, dimensions, mass, color, material, natural frequency, etc., the delivery date, inventory status, installation time, finishing material, service life, manufacturer information, model number, etc. However, it is not limited to this.

  More specifically, in the present embodiment, the part information includes an operation parameter of the BIM part used when analyzing the operation of the BIM part. The operation parameter is a parameter that defines the operation speed, operation pattern, and the like of the elevator. The part information includes size information of each BIM part. As the BIM parts, for example, when the elevator is an elevator as in this embodiment, the car, the counter weight, the main rope, the hoisting machine, the guide rail, the landing hall related products, the machine room, the control panel, the power source Equipment, various piping and wiring, etc. are mentioned. For example, when the elevator is an escalator, the BIM parts include trusses, steps, step chains, moving handrails, boarding boards, railings, driving devices, machine rooms, control panels, power supply facilities, various pipes and wiring, etc. . The part information includes setting parameters used when changing the BIM part. The setting parameters include parameters that define the size, color, material, etc. of 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 calculation formula file 206b is a calculation formula storage unit that stores a predetermined calculation formula used when executing a simulation related to an elevator. In the present embodiment, the calculation formula file 206b stores calculation formulas necessary for reaction force calculation and traffic calculation related to the elevator. In addition, the calculation formula file may store various threshold values, parameters, sample data, and the like necessary for simulation calculations such as reaction force calculation and traffic calculation.

  In FIG. 2, the control unit 202 has an internal memory for storing a control program such as an OS (Operating System), a program defining various processing procedures, and necessary data. And the control part 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, an analysis unit 202c, an information providing unit 202d, and an updating unit 202e 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. The creation condition specifies conditions for creating a BIM part of an elevator that can be incorporated into a BIM model of a building desired by a user. In the present embodiment, the creation condition receiving unit 202a receives a creation condition that is transmitted from the terminal device 100 and includes at least hoistway space information that defines hoistway space necessary for installing the elevator in a building. For example, when the elevator is an elevator, the hoistway space information includes information such as a frontage that defines the hoistway space, a depth, and a hoisting process.

  The creation condition receiving unit 202a may receive creation conditions including hoistway space information transmitted from the terminal device 100, building information related to a building where the elevator is installed, and elevator specification information related to the specifications of the elevator. . The building information includes information such as building usage, number of floors, floor name, floor height, floor personnel, and the like. For example, when the elevator is an elevator, the hoistway specification information includes in-car specification information and landing specification information. The specification information in the car includes information such as a side plate, a ceiling, a car operation panel, a sub operation panel, a sub operation panel (horizontal), a handrail, a mirror, and a recommended specification. The hall specification information includes information such as face plates, operation buttons, indicators, lanterns, alarm panels, and recommended specifications.

  In addition, the creation conditions may include a desired price, delivery date, and the like. The creation conditions may be input by the user via the input unit 118 in the terminal device 100, or may be read from an external storage device (not shown) in which the creation conditions are stored in advance. May be.

  The elevator modeling unit 202b is an elevator modeling unit that creates the BIM part of the elevator corresponding to the creation condition received by the creation condition receiving unit 202a using the part information stored in the part information database 206a. The elevator modeling unit 202b uses part information stored in the parts information database 206a for BIM parts corresponding to the creation conditions including the hoistway space information, building information, and elevator specification information transmitted from the terminal device 100. May be created. 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 analysis unit 202c is an analysis unit that executes a simulation related to the elevator using a predetermined calculation formula stored in the calculation formula file 206b based on the creation condition received by the creation condition reception unit 202a. In the present embodiment, the analysis unit 202c generates a simulation result by performing a reaction force calculation for the elevator and / or a traffic calculation for the elevator, although not limited thereto. For example, when executing the reaction force calculation simulation, the analysis unit 202c acquires the structure information of the BIM model of the building, the structure information of the BIM part of the elevator, and the like, and stores the information and the calculation formula file 206b. The reaction force may be calculated based on the information. When executing the traffic calculation simulation, the analysis unit 202c may perform the traffic calculation based on the operation parameter of the BIM part indicated by the part information included in the BIM part of the elevator and the information stored in the calculation formula file 206b. Good.

  The information providing unit 202d is information providing means for transmitting the elevator BIM parts created by the elevator modeling unit 202b to the terminal device 100. The information providing unit 202d may transmit the result of the simulation executed by the analysis unit 202c to the terminal device 100. The information providing unit 202d may transmit at least one of the BIM parts updated by the update unit 202e described later and the simulation result to the terminal device 100.

  When the information stored in the storage unit 206 (for example, part information stored in the parts information database 206a, a calculation formula stored in the calculation formula file 206b, etc.) is updated, the update unit 202e updates the updated information. And updating means for updating at least one of the BIM parts and the result of the simulation based on the creation condition received by the creation condition receiving unit 202a.

[Configuration of Terminal Device 100]
In FIG. 2, the terminal device 100 displays the BIM part of the elevator transmitted from the server device 200 on the display unit 114 in a state where it is installed in a hoistway space necessary for installing the elevator in a building. Have 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, and includes, for example, the Internet, a telephone line network (such as a portable terminal line network and a general telephone line network), and an intranet. Or power line communication (PLC) etc. may be sufficient.

  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 (such as hoistway space model database 106a and BIM model database 106b). The storage unit 106 may temporarily store various files and the like.

  Among the components of the storage unit 106, the hoistway space model database 106a is a hoistway space model storage unit that stores a hoistway space model simulating a hoistway. In the present embodiment, the hoistway space model is a three-dimensional shape model of the hoistway used by the user when performing an installation operation on an operation screen for acquiring hoistway space information by the control unit 102 described later. .

  The BIM model database 106b is a BIM model storage unit that stores a BIM model of a building. In the present embodiment, the BIM model database 106b 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 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. The control unit 102 includes a creation condition transmission unit 102a, a hoistway space information acquisition unit 102b, and a screen display unit 102c in terms of functional concept.

  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. The creation condition specifies conditions for creating a BIM part of an elevator that can be incorporated into a BIM model of a building desired by a user. In the present embodiment, the creation condition transmission unit 102a transmits to the server device 200 a creation condition including at least hoistway space information that defines hoistway space necessary for installing the elevator in the building. The creation condition transmitting unit 102a may transmit to the server device 200 a creation condition including at least hoistway space information acquired by a hoistway space information acquiring unit 102b described later. The creation condition transmitting unit 102a may transmit creation conditions including hoistway space information, building information related to a building in which the elevator is installed, and elevator specification information regarding the specifications of the elevator. In addition, the creation conditions may include a desired price, delivery date, and the like. 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 hoistway space information acquisition unit 102b installs a hoistway space model simulating a hoistway in a planned installation area in the BIM model via an operation screen displayed by the screen display unit 102c described later. Is detected, the hoistway space information acquisition unit acquires hoistway space information corresponding to the planned installation area from the BIM model.

  The screen display unit 102c is a screen display unit that displays the BIM part transmitted from the server device 200 on the display unit 114 in a state where the BIM part is installed in the hoistway space. That is, the screen display unit 102c displays the BIM part on the display unit 114 in a state where the BIM part is incorporated in the hoistway space model. The screen display unit 102c may cause the display unit 114 to display an operation screen for detecting a user's installation operation for installing a hoistway space model simulating a hoistway in a planned installation area in the BIM model. The screen display unit 102c may cause the display unit 114 to display the simulation result transmitted from the server device 200.

  In addition, the control unit 102 of the terminal device 100 creates an integrated modeling means for creating an integrated BIM model in which the elevator BIM parts transmitted from the server device 200 are incorporated in the building BIM model stored in the BIM model database 106b. May be provided. The control unit 102 may include screen generation means for generating a layout screen including the integrated BIM model created by the integrated modeling means. The screen display unit 102c may cause the display unit 114 to display the layout screen generated by the screen generation unit. Furthermore, the control unit 102 may include a changing unit that changes the BIM parts on the layout screen displayed by the screen display unit. Specifically, the changing unit changes the BIM part by changing the setting parameter of the part information included in the BIM part according to the changing condition input by the user.

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

[BIM system processing]
Next, an example of processing of the BIM system in the present embodiment configured as described above will be described in detail with reference to FIGS. 3 to 15 below.

  First, basic processing of the BIM system will be described with reference to FIGS. FIG. 3 is a flowchart showing an example of basic processing of the BIM system in the present embodiment. FIG. 4 is a diagram illustrating an example of hoistway space information that defines hoistway space necessary for installing the elevator in a building. FIG. 5 is a flowchart illustrating an example of hoistway space information acquisition processing in the present embodiment. FIG. 6 is a diagram illustrating an example of a hoistway space model simulating a hoistway. FIG. 7 is a diagram for explaining a user's installation operation for installing the hoistway space model in the planned installation area in the BIM model. FIG. 8 is a diagram illustrating an example of building information regarding a building in which an elevator is installed. FIG. 9A is a diagram illustrating an example of elevator specification information regarding the specification of the elevator. FIG. 9B is a diagram showing another example of elevator specification information. FIG. 10A is a diagram illustrating an example of simple perspective representing an elevator. FIG. 10B is a diagram illustrating another example of simple parsing. FIG. 11A is a diagram illustrating an example of a state in which BIM parts are incorporated into a hoistway space model. FIG. 11B is a diagram showing another example of a state in which BIM parts are incorporated in a hoistway space model. FIG. 12 is a diagram illustrating an example of a cross-sectional view of the hoistway space model illustrated in FIG. 11B.

  As illustrated in FIG. 3, the creation condition transmitting unit 102 a of the terminal device 100 transmits to the server device 200 a creation condition including at least hoistway space information that defines a hoistway space necessary for installing the elevator in the building. (Step SA-1). For example, as shown in FIG. 4, when the elevator is an elevator, the hoistway space information includes a frontage that defines the hoistway space ("2200.0 (mm)" in FIG. 4)), depth (in FIG. 4). , “2400.0 (mm)”), and the lifting / lowering stroke (“9600.0 (mm)” in FIG. 4).

  In step SA-1, the creation condition transmitting unit 102a transmits to the server device 200 a creation condition including at least hoistway space information acquired by the processing of the hoistway space information acquiring unit 102b, as shown in FIG. Also good. Here, an example of hoistway space information acquisition processing will be described with reference to FIGS.

  As shown in FIG. 5, the screen display unit 102 c of the terminal device 100 installs a hoistway space model simulating a hoistway as shown in FIG. 6 in a planned installation area in the BIM model as shown in FIG. 7. An operation screen for detecting a user's installation operation is displayed on the display unit 114 (step SB-1). The operation screen may be transmitted in advance from the server device 200 or may be generated on the terminal device 100 side.

  The control unit 102 of the terminal device 100 determines whether an installation operation is detected via the operation screen displayed by the process of the screen display unit 102c in Step SB-1 (Step SB-2).

  When determining that the installation operation is not detected in Step SB-2 (Step SB-2: No), the control unit 102 of the terminal device 100 returns to the process of Step SB-1. On the other hand, the hoistway space information acquisition part 102b of the terminal device 100 is installed from a BIM model, when it determines with installation operation having been detected by the process of the control part 102 in step SB-2 (step SB-2: Yes). The hoistway space information corresponding to the scheduled area is acquired (step SB-3). For example, when the user's installation operation for installing the hoistway space model as shown in FIG. 6 is detected in the planned installation area in the BIM model as shown in FIG. The hoistway space information defining the hoistway space necessary to install the hoistway space model in the planned installation area by judging the positional relationship between the hoistway space model and the wall position and beam position of the BIM model (FIG. 6). As shown in Fig. 5, information on the frontage, depth, and lifting process of the hoistway) is acquired. Thereafter, the process proceeds to step SA-1 in FIG.

  Returning to FIG. 3, the description will be continued from the processing of step SA-1. In step SA-1, the creation condition transmission unit 102a includes hoistway space information, building information about a building where the elevator as shown in FIG. 8 is installed, and specifications of the elevator as shown in FIGS. 9A and 9B. You may transmit the production conditions containing the elevator specification information regarding. As an example, in the building information shown in FIG. 8, the “housing” is selected as the building use by the user, and “6 (floor)” is selected as the number of floors. Further, as shown in the item “floor height” at the bottom of FIG. 8, the floor height “4500 (mm)” and floor personnel “0 (person)” are set for the floor name “1F”. From “2F” to “6F”, the floor height “4000 (mm)” and the floor personnel “20 (person)” are set. In addition, these building information can also be automatically acquired from the attribute information contained in the BIM model of the building in which the elevator is installed by the processing of the control unit 102 of the terminal device 100.

  As an example, for example, when the elevator is an elevator, the specification information in the car of the elevator specification information shown in FIG. 9A indicates information when “office” is selected as the building use by the user. Specifically, in the specification information in the car of FIG. 9A, the side plate is “wood tone sheet”, the ceiling is “light shade”, the car operation panel is “stainless steel hairline finish”, the sub operation panel is “none”, and the sub operation is The panel (horizontal) is set to “wheelchair dedicated control panel”, the handrail is set to “two directions of wooden handrails”, and the mirror is set to “full height mirror”. The platform specification information of the elevator specification information shown in FIG. 9B indicates information when “office” is selected as the building use by the user. Specifically, in the platform specification information of FIG. 9B, the face plate is “Stainless steel hairline finish”, the operation button is “Click touch button”, the indicator is “None”, the lantern is “Hall lantern”, and the alarm panel is “None” "Is set. The elevator specification information may be input by the user via the input unit 118, or the basic specifications are automatically input according to the building usage selected by the user. Also good. In addition, the elevator specification information is displayed on the display unit 114 by the processing of the control unit 102 of the terminal device 100, and the user selects each part etc. from a simple perspective representing the elevator as shown in FIGS. 10A and 10B. It may be set by selection.

  Returning to FIG. 3 again, the description will be continued from the processing of step SA-2. 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-1 (step SA-2).

  The elevator modeling unit 202b of the server apparatus 200 stores the BIM part of the elevator corresponding to the creation condition including at least the hoistway space information received by the process of the creation condition reception unit 202a in Step SA-2 in the part information database 206a. Created using the stored part information (step SA-3).

  The information providing unit 202d of the server device 200 transmits the elevator BIM parts created by the processing of the elevator modeling unit 202b in step SA-3 to the terminal device 100 (step SA-4).

  The control part 102 of the terminal device 100 receives the BIM part of the elevator transmitted by the process of the information providing part 202d in Step SA-4 (Step SA-5).

  The screen display unit 102c of the terminal device 100 causes the display unit 114 to display the BIM parts of one or more elevators received by the process of the control unit 102 in step SA-5 in a state where the BIM parts are installed in the hoistway space ( Step SA-6). That is, in step SA-6, as shown in FIGS. 11A, 11B, and 12, the screen display unit 102c displays the BIM part on the display unit 114 in a state where the BIM part is incorporated in the hoistway space model. As an example, in a hoistway space model as shown in FIG. 11A, a car, a guide rail, and a counterweight are incorporated as BIM parts. In the hoistway space model as shown in FIG. 11B, a landing door is further incorporated as a BIM part in addition to the car, guide rail, and counterweight. FIG. 12 shows a case where the hoistway space model of FIG. 11B is displayed two-dimensionally.

  In the example shown in FIG. 3, the basic processing for displaying the BIM part created on the server device 200 side in a state where it is incorporated in the hoistway space model on the terminal device 100 side has been described. However, the BIM system of the present embodiment is a server You may perform the process which displays on the terminal device 100 side the various simulation results performed on each device 200 side. Note that the BIM system of the present embodiment may execute the following simulation execution process in parallel with the basic process described above, or may execute it alone.

  Here, an example of the simulation execution process will be described with reference to FIGS. 13 to 14B. FIG. 13 is a flowchart illustrating an example of a simulation execution process in the present embodiment. FIG. 14A is a diagram illustrating an example of a reaction force calculation result as an example of a simulation result. FIG. 14B is a diagram illustrating an example of a traffic calculation result as an example of a simulation result.

  As illustrated in FIG. 13, the creation condition transmission unit 102a of the terminal device 100 transmits a creation condition including hoistway space information, building information, and elevator specification information (step SC-1).

  The creation condition receiving unit 202a of the server apparatus 200 receives the creation condition transmitted by the process of the creation condition transmitting unit 102a in step SC-1 (step SC-2).

  The analysis unit 202c of the server device 200 uses the predetermined calculation formula stored in the calculation formula file 206b on the basis of the creation condition received by the process of the creation condition reception unit 202a in step SC-2. Is executed (step SC-3). In the present embodiment, in step SC-3, the analysis unit 202c generates a simulation result by performing a reaction force calculation for the elevator and / or a traffic calculation for the elevator, although not limited to this.

  For example, when executing the reaction force calculation simulation, the analysis unit 202c acquires the structure information of the BIM model of the building, the structure information of the BIM parse of the elevator, and the like, and stores these information and the calculation formula file 206b. A reaction force calculation result as shown in FIG. 14A is generated by performing a reaction force calculation based on the information. For example, in the reaction force calculation result shown in FIG. 14A, the values of rail action load, pit impact load, and pit reaction force are simulated. Further, when executing the traffic calculation simulation, the analysis unit 202c performs the traffic calculation based on the operation parameters of the BIM part indicated by the part information included in the BIM part of the elevator and the information stored in the calculation formula file 206b. Thus, a traffic calculation result as shown in FIG. 14B is generated. For example, in the traffic calculation result shown in FIG. 14B, the calculation result and consideration are simulated as shown in the lower part of the figure based on the conditions such as the building usage, the elevator plan model, the calculation condition, and the service determination standard as shown in the upper part of the figure. Has been. In addition, the analysis unit 202c may generate a simulation result such as an energy consumption coefficient (CEC / EV).

  The information providing unit 202d of the server device 200 obtains the result of the simulation executed by the processing of the analyzing unit 202c in step SC-3 (for example, the reaction force calculation result as shown in FIG. 14A and / or the result shown in FIG. 14B). Such traffic calculation results) is transmitted to the terminal device 100 (step SC-4).

  The control unit 102 of the terminal device 100 receives the simulation result transmitted by the process of the information providing unit 202d in step SC-4 (step SC-5).

  The screen display unit 102c of the terminal device 100 causes the display unit 114 to display the simulation result received by the process of the control unit 102 in step SC-5 (step SC-6).

  As described above, according to the BIM system of the present embodiment, modeling and / or various simulations of the BIM parts of the elevator are executed on the server device 200 side, and the calculation results are transmitted to the terminal device 100 side. Since the process to be displayed is executed, it is possible to prevent outflow of technical data related to elevator design and various simulations. In addition, according to the BIM system of the present embodiment, the hoistway space model that does not include important technical data is shared among the contractors, and the BIM part of the elevator that is modeled so as to be installed in the hoistway space model. In addition, since the simulation result regarding the elevator can be displayed, it is possible to efficiently design the elevator and the building while considering security in order to prevent the outflow of technical data.

  Here, it is desirable that the user can automatically acquire the recalculation result reflecting the latest information even after acquiring the BIM parts of the elevator and the simulation result related to the elevator. Therefore, in the BIM system of the present embodiment, as shown in FIG. 15, when the information stored in the server device 200 is updated, the BIM parts and simulations corresponding to the created creation conditions are recalculated and updated. The recalculation result reflecting the information is transmitted to the terminal device 100. FIG. 15 is a flowchart illustrating an example of the update process in the update process embodiment.

  As illustrated in FIG. 15, the control unit 202 of the server apparatus 200 includes information stored in the storage unit 206 (for example, part information stored in the part information database 206a, a calculation formula stored in the calculation formula file 206b, and the like). Is updated (step SD-1).

  The control unit 202 of the server apparatus 200 stores the information stored in the storage unit 206 in step SD-1 (for example, the part information stored in the part information database 206a, the calculation formula stored in the calculation formula file 206b, etc.). If it is determined that it has not been updated (step SD-1: No), the processing returns to step SD-1. On the other hand, when it is determined that the information stored in the storage unit 206 is updated by the process of the control unit 202 in step SD-1 (step SD-1: Yes), the update unit 202e of the server device 200 performs the update. At least one of the BIM parts and the result of the simulation is recalculated and updated based on the received information and the creation condition received in advance by the process of the creation condition receiving unit 202a (step SD-2).

  The information providing unit 202d of the server device 200 transmits a recalculation result including at least one of the BIM part and the simulation result updated by the processing of the update unit 202e in Step SD-2 to the terminal device 100 ( Step SD-3).

  The control unit 102 of the terminal device 100 transmits a recalculation result including at least one of the updated BIM part and the simulation result transmitted from the server device 200 by the processing of the information providing unit 202d in step SD-3. Receive (step SD-4).

  The screen display unit 102c of the terminal device 100 causes the display unit 114 to display the recalculation result received by the process of the control unit 102 in step SD-4 (step SD-5).

  Thus, according to the BIM system of this embodiment, the recalculation result reflecting the latest information can be automatically acquired even after acquiring the BIM part of the elevator and the simulation result related to the elevator.

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

[Modification]
A modification of the present embodiment will be described below with reference to FIG. Here, FIG. 16 is a block diagram showing an example of the configuration of the BIM system in a modification of the present embodiment, and conceptually shows only the portion related to the present embodiment in the configuration.

  In the BIM system of the above-described embodiment, the storage unit 206 on the server device 200 side includes the parts information database 206a and the calculation formula file 206b, and the hoistway space model database 106a and the BIM model database 106b are stored in the storage unit 106 on the terminal device 100 side. However, as shown in FIG. 16, information necessary for various modeling and simulations may be collected on the server device 200 side.

  As shown in FIG. 16, the storage unit 206 of the server device 200 includes a parts information database 206a, a calculation formula file 206b, a hoistway space model database 206c, and a BIM model database 206d. Information stored in each database and file is the same as that shown in FIG. The control unit 202 of the server apparatus 200 includes a creation condition receiving unit 202a, an elevator modeling unit 202b, an analysis unit 202c, an information providing unit 202d, an update unit 202e, a hoistway space information acquisition unit 202f, and a screen generation unit 202g. That is, the modification shown in FIG. 16 is different from the example shown in FIG. 2 in that the hoistway space information acquisition unit 202f and the screen generation unit 202g are provided on the server device 200 side. As described above, in the BIM system of this modification, on the server device 200 side, a screen including a hoistway space model incorporating BIM parts and various simulation results is generated and transmitted to the terminal device 100 for display. Is to do.

  As shown in FIG. 16, the BIM system of this modification may be connected to an external database device 400 via a network 300 to acquire a BIM model from the BIM model database 406a. The database device 400 functions as a database server and provides the latest BIM model stored in the BIM model database 406 a of the storage unit 406 via the network 300. Thereby, the control unit 202 of the server apparatus 200 can periodically access the database apparatus 400 and update the BIM model stored in the BIM model database 206d of the storage unit 206 to the latest state.

[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 elevator has been described as an example of an elevator. However, the present invention can be similarly applied to passenger conveyors such as escalators 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, unless otherwise specified, the processing procedures, control procedures, specific names, information including registration data for each processing, parameters such as search conditions, screen examples, and database configurations shown in the above documents and drawings Can be changed arbitrarily.

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

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

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

  In addition, the program according to the present invention may be stored in a computer-readable recording medium, and 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.

  The storage unit 106 and various databases stored in the storage unit 206 are storage means such as a memory device such as a RAM and a ROM, a fixed disk device such as a hard disk, a flexible disk, and an optical disk. Stores various programs, tables, databases, web page files, and the like used for provision.

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

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

  According to the BIM system, the server device, the terminal device, the method, and the program according to the embodiment and the modification described above, it is possible to prevent the outflow of technical data when designing an elevator and a building.

100 terminal device 102 control unit
102a Creation condition transmitter
102b Hoistway space information acquisition unit
102c Screen display unit 104 Communication control interface unit 106 Storage unit
106a hoistway space model database
106b 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 Analysis unit
202d Information providing unit
202e Update unit 204 Communication control interface unit 206 Storage unit
206a Parts information database
206b Formula file
206c hoistway space model database
206d BIM model database 300 network

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 control unit and a display unit are connected to be communicable. The storage unit of the server device includes 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. The said control part of the said server apparatus is the said BIM corresponding to the creation conditions which contain the hoistway space information which prescribed | regulated the hoistway space required for installing the said elevator in the said building transmitted from the said terminal device at least Elevator modeling means for creating parts using the part information stored in the parts information storage means; and information providing means for transmitting the BIM parts created by the elevator modeling means to the terminal device. . The control unit of the terminal device detects an installation operation of a user who installs a hoistway space model imitating a hoistway defined by a frontage, a depth, and a hoisting process in a planned installation area in the BIM model. When the installation operation is detected via the screen display means for displaying the operation screen on the display unit and the operation screen displayed by the screen display means, the ascending and descending corresponding to the planned installation area from the BIM model Hoistway space information acquisition means for acquiring road space information, and creation condition transmission means for transmitting the creation condition including at least the hoistway space information acquired by the hoistway space information acquisition means to the server device. wherein the screen display means, the information providing unit by said hoistway space the BIM part transmitted from the server device It is displayed on the display unit in the installation state.

Claims (13)

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 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:
The BIM part corresponding to the creation condition including at least hoistway space information defining hoistway space necessary for installing the elevator in the building, transmitted from the terminal device, is stored in the parts information storage means. Elevator modeling means for creating using the stored part information;
Information providing means for transmitting the BIM part created by the elevator modeling means to the terminal device;
With
The control unit of the terminal device is
Screen display means for displaying the BIM parts transmitted from the server device by the information providing means on the display unit in a state of being installed in the hoistway space;
A BIM system comprising: The screen display means includes
Displaying an operation screen for detecting a user's installation operation for installing a hoistway space model simulating the hoistway in a planned installation area in the BIM model;
The control unit of the terminal device is
Hoistway space information acquisition means for acquiring the hoistway space information corresponding to the planned installation area from the BIM model when the installation operation is detected via the operation screen displayed by the screen display means;
Creation condition transmission means for transmitting the creation condition including at least the hoistway space information acquired by the hoistway space information acquisition means to the server device;
The BIM system according to claim 1, further comprising: The screen display means includes
The BIM system according to claim 2, wherein the BIM part is displayed on the display unit in a state of being incorporated in the hoistway space model. The creation condition further includes building information regarding the building where the elevator is installed, and elevator specification information regarding the specification of the elevator,
The elevator modeling means includes:
The BIM part corresponding to the creation condition including the hoistway space information, the building information, and the elevator specification information transmitted from the terminal device, and the parts information stored in the parts information storage means The BIM system according to claim 1, wherein the BIM system is created by using the BIM system. The control unit of the server device includes:
Based on the creation condition, an analysis unit that executes a simulation related to the elevator using a predetermined calculation formula stored in the storage unit,
Further comprising
The information providing means includes
Transmitting the result of the simulation executed by the analyzing means to the terminal device;
The screen display means includes
5. The BIM system according to claim 4, wherein the result of the simulation transmitted from the server device by the information providing unit is displayed on the display unit. The control unit of the server device includes:
An update unit configured to update at least one of the BIM part and the simulation result based on the updated information and the creation condition when the information stored in the storage unit is updated;
Further comprising
The information providing means includes
The BIM system according to claim 5, wherein at least one of the BIM part updated by the updating unit and the result of the simulation is transmitted to the terminal device. A server device including at least a control unit and a storage unit, connected to a terminal device including at least a display unit so as to be able to communicate,
The storage unit
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 controller is
The BIM part corresponding to the creation condition including at least hoistway space information defining hoistway space necessary for installing the elevator in the building, transmitted from the terminal device, is stored in the parts information storage means. Elevator modeling means for creating using the stored part information;
Information providing means for transmitting the BIM part created by the elevator modeling means to the terminal device;
With
In the terminal device, the BIM part transmitted from the server device is displayed on the display unit in a state of being installed in the hoistway space. A terminal device including at least a control unit and a display unit, connected to the server device so as to be communicable,
The controller is
The elevator that can be incorporated into the BIM model of the building, corresponding to a creation condition that includes at least hoistway space information that defines the hoistway space necessary for installing the elevator in the building, transmitted from the terminal device Screen display means for receiving the BIM part from the server device and displaying the BIM part on the display unit in a state where the BIM part is installed in the hoistway space;
A terminal device comprising: 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 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
Corresponding to the creation condition including at least hoistway space information defining hoistway space necessary for installing the elevator in the building, transmitted from the terminal device, executed in the control unit of the server device The elevator modeling step of creating the BIM part using the part information stored in the part information storage means;
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;
A screen display step for causing the display unit to display the BIM part transmitted from the server device in the information providing step in a state where it is installed in the hoistway space, which is executed in the control unit of the terminal device;
A method comprising the steps of: A method that is executed in a server device that includes at least a control unit and a storage unit, and is communicably connected to a terminal device that includes at least a display unit,
The storage unit
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
Executed in the control unit,
The BIM part corresponding to the creation condition including at least hoistway space information defining hoistway space necessary for installing the elevator in the building, transmitted from the terminal device, is stored in the parts information storage means. Elevator modeling step to create using the stored part information;
An information providing step of transmitting the BIM part created in the elevator modeling step to the terminal device;
Including
In the terminal device, the BIM part transmitted from the server device is displayed on the display unit in a state of being installed in the hoistway space. A method that is executed in a terminal device that is connected to a server device in a communicable manner and includes at least a control unit and a display unit,
Executed in the control unit,
The elevator that can be incorporated into the BIM model of the building, corresponding to a creation condition that includes at least hoistway space information that defines the hoistway space necessary for installing the elevator in the building, transmitted from the terminal device A screen display step of receiving the BIM part from the server device and displaying the BIM part in the state where the BIM part is installed in the hoistway space;
A method comprising the steps of: A program for causing a server device provided with at least a control unit and a storage unit to be communicably connected to a terminal device provided with at least a display unit,
The storage unit
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
In the control unit,
The BIM part corresponding to the creation condition including at least hoistway space information defining hoistway space necessary for installing the elevator in the building, transmitted from the terminal device, is stored in the parts information storage means. Elevator modeling step to create using the stored part information;
An information providing step of transmitting the BIM part created in the elevator modeling step to the terminal device;
And execute
In the terminal device, the BIM part transmitted from the server device is displayed on the display unit in a state of being installed in the hoistway space. A program for causing a terminal device including at least a control unit and a display unit connected to a server device to be communicable,
In the control unit,
The elevator that can be incorporated into the BIM model of the building, corresponding to a creation condition that includes at least hoistway space information that defines the hoistway space necessary for installing the elevator in the building, transmitted from the terminal device A screen display step of receiving the BIM part from the server device and displaying the BIM part in the state where the BIM part is installed in the hoistway space;
A program characterized by having executed.

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