JP2009076104A - Construction work management device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a construction work management device which can simulate carry-in and installation of equipment by accommodating a schedule. <P>SOLUTION: The construction work management system comprises a storing section which stores three dimensional model data of construction sites by associating with respective items of the schedule, three dimensional model data of the objective carry-in and installation equipment, and three dimensional model data of construction machinery, a first display means which reads the three dimensional model data of the construction site associated with the items at the designated date to display on a display unit, a second display means which reads the three dimensional model data of the selected objective carry-in and installation equipment from the storing section to display in the three dimensional model of the construction site displayed on the display unit, and a means for simulation for simulating when a means for accepting input accepts input of an operating radius and input of selecting the construction machinery. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a construction work management apparatus used when performing construction work schedule management, progress management or equipment loading and installation simulation.

  Conventionally, the progress of construction work has been performed by displaying a schedule table written in letters and numbers on paper or a schedule table stored in memory as text on a computer screen. However, such a conventional management method has a drawback that it is difficult to visually grasp a schedule or the like at a glance.

On the other hand, devices described in Patent Documents 1 and 2 are known as devices for managing conventional construction work. The device described in Patent Document 1 is a device that performs a simulation of a construction plan for carrying in or installing equipment at a predetermined position on a construction site. However, since this device does not have the concept of time, there is a drawback that schedule management and progress management cannot be performed. The device described in Patent Document 2 is a system that supports construction process management of a large-scale building such as a plant, and can display along the time axis based on a construction sequence. However, the apparatus of Patent Document 2 cannot perform a construction simulation.
Japanese Patent Laid-Open No. 10-280685 Japanese Patent No. 2712231

  The present invention has been made in consideration of such circumstances, and it is an object of the present invention to provide a construction management apparatus capable of simulating equipment loading and installation in accordance with a schedule.

  In order to solve the above problem, a construction work management apparatus according to one aspect of the present invention stores construction site 3D model data, which is data of a 3D model of a construction site, combined with each item of a schedule, A storage unit for storing the 3D model data of the installation target apparatus that is a 3D model of the equipment to be imported or installed, and the 3D model data of the construction machine that is the 3D model data of the construction machine, and an input from the user When the input receiving means and the input specifying the date are received by the input receiving means, the construction site 3D model data combined with the item of the specified date is read from the storage unit, and the construction site of the specified date When an input for selecting a target device is received by the first display means for displaying the three-dimensional model on the display unit and the input receiving means, The selected installation target device 3D model data is read from the storage unit, and the selected installation target device installation 3D model is displayed in the construction site 3D model displayed on the display unit. When the input of the work radius and the input for selecting the construction machine are received by the second display means and the input receiving means, the simulation is performed based on the construction site three-dimensional model data and the construction machine three-dimensional model data of the construction machine. And a simulation means for performing the above.

  The construction work management apparatus may further include recording means for storing the simulation process by the simulation means in an animation recording file.

  In the construction work management apparatus, the first display means, when receiving the input specifying the start date and the end date by the input accepting means, the construction site linked to the items on each date from the start date to the end date The three-dimensional model data may be read from the storage unit in order of date, and the construction site three-dimensional model of each date may be displayed on the display unit in order of date.

  In the construction work management apparatus, the first display means displays the construction site three-dimensional model on the display section at the interval when the input specifying the number of days to be displayed is accepted by the input accepting means. Also good.

  In the construction work management device, the simulation means reads the construction machine 3D model data of the selected construction machine from the storage unit, and displays the construction machine 3D model of the selected construction machine displayed on the display unit. You may make it perform a simulation by displaying in a three-dimensional model.

  According to the present invention, it is possible to obtain an effect that it is possible to perform a simulation of equipment loading and installation in accordance with the progress of the schedule.

  Hereinafter, an embodiment of the present invention will be described with reference to the drawings. FIG. 3 is a functional block diagram showing a functional configuration of the construction work management apparatus according to the embodiment. In this figure, a PC-CAD (Personal Computer-Computer Aided Design) 1 includes a plot plan storage unit 2 in which two-dimensional CAD data such as a construction site is stored, a PDS (Plant Design System) model data storage unit 3 The data is read from the data, and the read data is subjected to predetermined processing to form three-dimensional model data, which is written into the project database 11. In addition, data is read from the equipment figure 4, the scaffold / temporary structure design drawing 5 and the construction machine specification 6 showing the shape of the target equipment to be carried in and installed in the construction, and 3D simulation is supported based on these data 3D model data to be created is written into the project database 11 and the construction machine database 12. As a result, the 3D model data of the shape of the target equipment to be carried in and installed and the 3D model data related to the construction site such as the shape of the existing facility and frame are written in the project database 11, and the construction machine such as a crane or the like. The three-dimensional model data of the shape is written in the construction machine database 12.

Reference numeral 8 is a schedule database, and the construction schedule created thereby is stored as text data.
Reference numeral 10 denotes a construction management unit, which includes the above-described databases 11 and 12, the program storage unit 14, the animation recording file 15, a CPU (central processing unit; not shown) that performs processing according to the program in the program storage unit, and an input. And a display device (both not shown). In this case, the program storage unit 14 includes a program for connecting the schedule database 8 and the three-dimensional model data in the project database 11 and the construction machine database 12, and FWBS (Functional Work Breakdown Structure). And a program for classifying using the definition.

Next, the operation of the construction work management apparatus described above will be described with reference to the flowcharts shown in FIGS.
(1) Creation of Management Database The management database is a database for schedule management and is created as a part of the project database 11. The project database 11 includes a database of three-dimensional model data in addition to this management database.
FIG. 4 is a flowchart showing a management database creation process. First, it is determined whether schedule data has already been input to the schedule database 8 (step Sa1). If it has not been input, the schedule data is directly input from the keyboard (step Sa2). The input data is written in the project database 11. If the schedule data has already been input to the schedule database 8, the schedule data is taken into the project database 11 (step Sa3).

  Next, it is checked whether or not 3D model data is prepared in the PDS model data storage unit 3 (step Sa4). If prepared, the model data is processed (step Sa5), and then the three-dimensional model data is taken into the project database 11 (step Sa6). If model data is not prepared, the scaffold / temporary structure design drawing 5, the construction machine specification 6 and the equipment drawing 4 are acquired (step Sa7), and three-dimensional based on the acquired design drawing and specification. Model data is created (step Sa8), and the created model data is taken into the project database 11 (step Sa6).

  Next, each schedule item of the schedule data in the project database 11 and the model data are combined. This has information for attaching a rule for each FWBS, and is performed by designating the rule for each item of the schedule.

(2) Construction Work Simulation FIG. 5 is a flowchart showing the construction work simulation process. When the user inputs the date on which the simulation is performed, the site situation of that date is called from the project database 11 and displayed (step Sb1). Next, the user selects a target device to be loaded and installed, and sets the weight, the position of the center of gravity, and the position of Liftng Lug (lifting projection) (step Sb2). Next, the target device is placed in the field situation (step Sb3). Next, the work radius is input, and a construction machine is selected from the construction machine database 12 (step Sb4). If the selected construction machine is not set in the database 12 (step Sb5), three-dimensional model data is created (step Sb6) and registered in the construction machine database 12 (step Sb7).

  When the construction machine selected in step Sb4 is set in the database 12, model data of the construction machine is read from the database 12, and simulation is performed based on the model data and the model data indicating the site situation. Done. In this simulation, the work radius input in step Sb4 is confirmed, and overload (overload) is confirmed. If there is a problem as a result of the simulation, the construction machine is selected again and then the simulation is performed again. If there is no problem as a result of the simulation, the simulation process is recorded in the animation recording file (step Sb9). Next, the created animation file is stored in the project database 11 (step Sb10).

(3) Schedule Simulation FIG. 6 is a flowchart showing a schedule simulation process. First, the user inputs the start date and the end date of the schedule simulation on the display screen (step Sc1). Next, the user designates the number of days to display (step Sc2). When this designation is performed, a still image simulation is performed. That is, the schedule between the start date and the end date and the three-dimensional model data of the construction site corresponding to each schedule item are read from the project database 11 and are sequentially displayed as characters and still images (step Sc3). If there is a problem with the displayed schedule, the user adjusts the schedule (step Sc4). Then, the process of steps Sc1 to Sc3 is repeated again to perform a simulation. In this case, various cases can be simulated by changing the combination state and schedule information of the schedule item and the construction site.

  If there is no problem with the schedule, the process may be terminated as it is, or a video simulation may be performed. When performing a video simulation, when the user performs a key operation to instruct the video simulation using the keyboard and mouse, the animations recorded in the construction work simulation are arranged on the schedule and displayed in time series (step Sc5). ). Next, the user connects the animation file and the schedule item (step Sc6). Next, the user specifies the period (maximum 2 weeks) for displaying the animation.

  When the above-mentioned designation is performed by the user, the field situation of the designated end date is read from the project database 11 and displayed. At the same time, a list of animation files included in the designated period is displayed (step Sc8). Next, the user determines the length and order in which the displayed animation is played back (step Sc9). Thereafter, the animation file is played back and a moving image simulation is displayed (step Sc10). If there is a problem with the display, the user again determines the length and order in which the displayed animation is played back (step Sc9).

(4) Progress Management FIG. 7 is a flowchart showing the progress management process. The user inputs the actually completed construction date into each schedule item (step Sd1). The inputted construction date is written in the project database 11 corresponding to the schedule item. Next, the date when the user wants to compare is designated (step Sd2), and the execution button is pressed (step Sd3). When the execute button is pressed, the schedule on the specified date and the actual construction status are read from the project database 11 and displayed, and the progress difference between the schedule and the actual construction status is highlighted (step Sd4). .

  As described above, according to the construction work management apparatus according to this embodiment, it is easy to use the 3D model data created by 3D CAD for the examination of the Constructability (workability) in the construction plan and the verification of the schedule. By using the three-dimensional model data to be created, these studies that have been conventionally performed on paper can be performed more efficiently and in detail. And this can acquire the effect of the reduction of the risk with respect to the additional cost resulting from the time shortening of a construction plan and a planning mistake.

In addition, since these products are electronic data, it becomes easy to share information with the people involved in the in-house project, and the time required for unifying the recognition of the construction sequence and construction method can be shortened as compared with the conventional products.
In addition, by operating this system at the field office and using it for explaining the construction plan for the sub-contractor, it is possible to quickly unify the sub-contractor as described above. But you can expect a reduction in time.
In addition, it can be used for explanations and presentations of construction plans to customers, so that the company's presence can be enhanced and differentiated from other companies.

It is a functional block diagram of the invention of claim 1. It is a functional block diagram of invention of Claim 3. It is a functional block diagram which shows the structure of the construction work management apparatus by one Embodiment of this invention. It is a flowchart which shows the creation process of the management database in the embodiment. It is a flowchart which shows the process of the construction construction simulation in the same embodiment. It is a flowchart which shows the process of the progress condition management in the embodiment. It is a flowchart which shows the process of the progress condition management in the embodiment.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... PC-CAD2 ... Plot plan memory | storage part 3 ... PDS model data memory | storage part 4 ... Equipment figure 5 ... Scaffolding / temporary structure design drawing 6 ... Construction machine specification 8 ... Schedule database 10 ... Construction management unit 11 ... Project database 12 ... Construction machine database 14 ... program storage unit 15 ... animation recording file

Claims (5)

The construction site 3D model data, which is the 3D model data of the construction site, is stored in combination with each item of the schedule, and the installation installation target device 3D model data, which is the 3D model of the import or installation target device, and A storage unit for storing construction machine 3D model data, which is 3D model data of the construction machine;
Input receiving means for receiving input from the user;
When an input for specifying a date is received by the input receiving means, the construction site 3D model data combined with the specified date item is read from the storage unit, and the construction site 3D of the specified date is read First display means for displaying the model on the display unit;
When an input for selecting the target device is received by the input receiving unit, the installation target device 3D model data of the selected target device is read from the storage unit, and the target installation device 3D of the selected target device is read. Second display means for displaying the model in the three-dimensional model of the construction site displayed on the display unit;
Simulation means for performing a simulation based on the construction site three-dimensional model data and the construction machine three-dimensional model data of the construction machine when the input of the work radius and the input for selecting the construction machine is accepted by the input reception means A construction management apparatus characterized by comprising:   The construction work management apparatus according to claim 1, further comprising recording means for storing a simulation process by the simulation means in an animation recording file.   The first display means, when receiving an input designating a start date and an end date by the input accepting means, the three-dimensional construction site connected to items on each date from the start date to the end date 2. The construction work management apparatus according to claim 1, wherein model data is read from the storage unit in date order, and the construction site three-dimensional model for each date is displayed on the display unit in date order.   The said 1st display means displays the said construction site three-dimensional model on a display part at the said space | interval, when the input which designates how many days interval is displayed by the input reception means is received. 3. Construction work management apparatus according to 3.   The simulation means reads the construction machine three-dimensional model data of the selected construction machine from the storage unit, and displays the construction machine three-dimensional model of the selected construction machine on the display unit. The construction work management apparatus according to claim 1, wherein the simulation is performed by displaying the inside of the construction work management apparatus.

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