JP2009123076A - Three-dimensional cad system program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a technology for allowing building equipment CAD drawing which has a three-dimensional shape based on three-dimensional data and is two-dimensionally displayed to be easily displayed to a three-dimensional CG space display device from arbitrary point of view and a line of sight direction a user desires and allowing the three-dimensional shape to be successively displayed continuously to the three-dimensional CG space display device as if the user were continuously moving in the three-dimensional CG space. <P>SOLUTION: A CAD system program constitutes: a three-dimensional shape data storage means 12 for storing three-dimensional shape data; a polygon data reflecting means 16 for reflecting the three-dimensional shape data stored in the three-dimensional shape data storage means 12 to polygon data; and a polygon data display means 20 for displaying the polygon data to be displayed inside a three-dimensional CG space from a designated point of view position and line of sight direction. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a 3D CAD system program for displaying 3D CG display of building equipment drawing data created by 3D CAD.

  2. Description of the Related Art Conventionally, methods and systems for displaying a three-dimensional shape based on a house design drawing on a display device using a computer have been developed. For example, in Patent Document 1, while continuing to input a house design drawing, the input members are sequentially recognized and stored in the computer, and further, by clicking the display update button, they are displayed in a dialog box on the display screen. There has been disclosed a technique capable of displaying an appearance and further displaying the appearance in the dialog box from an arbitrary azimuth and viewpoint height.

According to this, it is possible to make progress while confirming one by one while reflecting the appropriateness of the complicated work design input work and the appropriateness of specifications etc. in the appearance of the whole house, and also desired the suitability of the design input work etc. It becomes possible to confirm quickly and easily from the azimuth and height.
JP 2002-297672 A

  As described above, a technique has been developed in which a work result of a house design drawing or the like is displayed on a display device as a three-dimensional shape, and further, the appearance can be displayed from an arbitrary orientation or viewpoint height. In order to deepen the three-dimensional understanding of the building equipment drawing contents, a simple operation is performed on the three-dimensional shape (polygon data) based on the three-dimensional shape data including a plurality of various members included in the building equipment drawing data. By simply displaying the CG on the 3D CG space display device from the user's arbitrary viewpoint or line of sight, the 3D shape is displayed as CG as if the user is moving sequentially in the 3D CG space. There was still room for technical improvement in order to make it appear.

  An object of the present invention is to solve the above-mentioned problems by a simple operation of a three-dimensional shape (polygon data) based on the three-dimensional shape data included in a building equipment drawing composed of a plurality of various members. It is possible to easily display as a CG on the 3D CG space display device from any viewpoint and line-of-sight direction desired by the user, and as if the user is moving sequentially in the 3D space. It is another object of the present invention to provide a technique capable of sequentially displaying a three-dimensional shape (polygon data) as a CG sequentially on a three-dimensional CG space display device.

In order to solve the above-described problems, the present invention takes the following technical means.
That is, the invention described in claim 1 is a drawing data reading means for reading building equipment drawing data including three-dimensional shape data in a computer, and a three-dimensional shape data included in the building equipment drawing data read by the drawing data reading means. 3D shape data storage means for storing data, data reflection instruction reception means for receiving a data reflection instruction for reflecting the 3D shape data stored in the 3D shape data storage means to polygon data, and the data reflection instruction means Receives a data reflection instruction, polygon data reflecting means for reflecting the three-dimensional shape data stored in the three-dimensional shape data storage means to polygon data, and polygon data reflected by the polygon data reflecting means Polygon data storage means for storing the viewpoint position for the polygon data Input viewpoint position input means, viewpoint position storage means for storing the viewpoint position input by the viewpoint position input means, line-of-sight direction input means for inputting the line-of-sight direction for the polygon data, and input by the line-of-sight direction input means The line-of-sight direction storage means for storing the line-of-sight direction and the polygon data stored in the polygon data storage means are read out, and the polygon data is stored in the viewpoint position stored in the viewpoint position storage means and the line-of-sight direction storage means A CAD system program for executing a function including polygon data display means for displaying on a three-dimensional CG space display device in accordance with the viewing direction.

According to a second aspect of the present invention, there is provided a drawing data reading means for reading building equipment drawing data including three-dimensional shape data in a computer, and a three-dimensional shape data contained in the building equipment drawing data read by the drawing data reading means. 3D shape data storage means for storing data, data reflection instruction reception means for receiving a data reflection instruction for reflecting the 3D shape data stored in the 3D shape data storage means to polygon data, and the data reflection instruction means Receives a data reflection instruction, polygon data reflecting means for reflecting the three-dimensional shape data stored in the three-dimensional shape data storage means to polygon data, and polygon data reflected by the polygon data reflecting means Polygon data storage means for storing the viewpoint position of the polygon data Input viewpoint position input means, viewpoint position storage means for storing the viewpoint position input by the viewpoint position input means, line-of-sight direction input means for inputting the line-of-sight direction for the polygon data, and input by the line-of-sight direction input means The line-of-sight direction storage means for storing the line-of-sight direction and the polygon data stored in the polygon data storage means are read out, and the polygon data is stored in the viewpoint position stored in the viewpoint position storage means and the line-of-sight direction storage means Polygon data display means for displaying on the three-dimensional CG space device according to the line-of-sight direction, position information stored in the viewpoint position storage means and the line-of-sight direction stored in the line-of-sight direction storage means as viewpoint information Position information storage means to be stored in the storage means, and the position information storage means Polygon data continuous display instruction means for receiving an instruction to continuously display the polygon data in the viewpoint position and the line-of-sight direction between the position information on the three-dimensional CG space display device when stored in the position information storage means a plurality of times And when the polygon data continuous display instructing unit accepts an instruction to sequentially display sequentially, the viewpoint position and the line-of-sight direction at each viewpoint are proportionally distributed between the viewpoints, and Polygon data continuous display for reading polygon data stored in the polygon data storage means and displaying the polygon data successively on the three-dimensional CG space display device in accordance with the viewpoint position and the line-of-sight direction obtained by the proportional distribution CAD system program characterized by executing a function including means Lamb.

  The CAD system program according to the present invention easily displays a three-dimensional shape based on the three-dimensional data from a desired viewpoint and line-of-sight direction desired by the user in a three-dimensional CG space on a computer. It can have a function to make it. Furthermore, since the function of sequentially displaying the three-dimensional shape on the three-dimensional CG space display device can be provided, the three-dimensional shape is displayed as if it is moving continuously in the three-dimensional space. It is possible to display on a dimensional CG space display device.

A first embodiment of the present invention will be described with reference to the drawings.
FIG. 1 is a diagram showing an outline of a computer CAD system provided by a three-dimensional CAD system program according to the first embodiment of the present invention. 10 is a drawing data reading means, 12 is a three-dimensional shape data storage means, 14 is a data reflection instruction receiving means, 16 is a polygon data reflection means, 18 is a polygon data storage means, 20 is a polygon data display means, and 22 is a viewpoint position input. Means 24, viewpoint position storage means, 26 gaze direction input means, and 28 gaze direction storage means. 2 and 3 show the processing flow of the computer CAD system brought about by the three-dimensional CAD system program in the first embodiment of the present invention.

First, the drawing data reading means 10 reads the building equipment drawing data, whereby the 3D shape data included in the building equipment drawing data is stored in the 3D shape data storage means 12. Subsequently, when checking the three-dimensional shape data stored in the three-dimensional shape data storage unit 12 in the three-dimensional CG display device, first, the three-dimensional shape stored in the three-dimensional shape data storage unit 12 is used. A data reflection instruction is issued to the data reflection instruction receiving means 14 for receiving an instruction to reflect data to polygon data. Note that, for example, a button on the work screen is used as the data reflection instruction receiving means 14, and an instruction for data reflection is issued by clicking this button.

  When the data reflection instruction receiving unit 14 receives the reflection instruction, the polygon data reflecting unit 16 reflects the 3D shape data stored in the 3D shape data storage unit 12 to the polygon data. The polygon data reflected by the polygon data reflecting means 16 is stored in the polygon data storage means 18.

The reflection from the 3D shape data to the polygon data is based on the vertex coordinate values of the 3D shape included in the 3D shape data. The viewpoint position is represented by X coordinate, Y coordinate, and Z coordinate, and the line-of-sight direction is represented by elevation angle and azimuth angle.

Next, a flow of displaying the polygon data stored in the polygon data storage unit 18 on the three-dimensional CG space display device (screen) from an arbitrary viewpoint position and line-of-sight direction will be described.
First, the viewpoint position input means 22 inputs from which viewpoint position the polygon data is displayed in the three-dimensional space, and the viewpoint position is stored (updated) in the viewpoint position storage means 24. Then, the line-of-sight direction input unit 26 inputs which line-of-sight direction polygon data is to be displayed in the three-dimensional CG space, and stores (updates) the line-of-sight direction in the line-of-sight direction storage unit 28.

  Subsequently, the polygon data display means 20 reads the polygon data from the polygon data storage means 18, and responds to the viewpoint position stored in the viewpoint position storage means 24 and the line-of-sight direction stored in the line-of-sight direction storage means 28. Display on a three-dimensional CG space display device. That is, the polygon data viewed from the viewpoint position and the line-of-sight direction stored in the storage means can be displayed on the three-dimensional CG space display device (see, for example, FIG. 7).

If no viewpoint position / line-of-sight direction is input by the viewpoint position input unit 22 and the line-of-sight direction input unit 26, the viewpoint positions stored in the viewpoint position storage unit 24 and the line-of-sight direction storage unit 28 during the previous work are Polygon data is displayed according to the line-of-sight direction.

Next, a second embodiment of the present invention will be described with reference to the drawings.
FIG. 4 is a diagram showing an outline of a computer CAD system provided by a three-dimensional CAD system program according to the second embodiment of the present invention. Reference numeral 30 denotes position information storage means, 32 denotes position information storage means, 34 denotes polygon data continuous display instruction means, and 36 denotes polygon data continuous display means. 5 and 6 show the processing flow of the computer CAD system brought about by the three-dimensional CAD system program in the embodiment of the present invention.

The drawing data reading means 10 reads the building equipment drawing data, and the 3D shape data included in the building equipment drawing data is stored in the 3D shape data storage means 12. Next, a data reflection instruction is issued to the data reflection instruction receiving means 14 for receiving an instruction to reflect the 3D shape data stored in the 3D shape data storage means 12 to the polygon data. By doing so, the three-dimensional shape data stored in the three-dimensional shape data storage means 12 can be confirmed in the three-dimensional CG display device (screen). For example, an icon, a button, or the like on the screen is used as the data reflection instruction receiving means 14, and the data reflection instruction is issued by clicking these.

  When the data reflection instruction receiving unit 14 receives the reflection instruction, the polygon data reflecting unit 16 reflects the 3D shape data stored in the 3D shape data storage unit 12 to the polygon data. The polygon data is stored in the polygon data storage means 18.

  Next, the viewpoint position input means 22 inputs from which viewpoint position the polygon data is displayed in the three-dimensional space, and the viewpoint position storage means 24 stores (updates) the viewpoint position. Further, the line-of-sight direction input unit 26 inputs which line-of-sight direction polygon data is to be displayed in the three-dimensional CG space, and stores (updates) the line-of-sight direction in the line-of-sight direction storage unit 28.

  Then, the polygon data display means 20 reads the polygon data from the polygon data storage means 18, and the polygon data according to the viewpoint position stored in the viewpoint position storage means 24 and the line-of-sight direction stored in the line-of-sight direction storage means 28. It is displayed on a three-dimensional CG space display device (for example, see FIG. 7).

Next, the flow of displaying polygon data as if the user is continuously moving in the three-dimensional CG space on the three-dimensional CG space display device (screen) will be described.
First, a view point consisting of a viewpoint position and a line-of-sight direction with respect to polygon data displayed on the three-dimensional CG space display device is stored in the position information storage unit 32 by the position information storage unit 30 as a movement point for movement display.

  When a plurality of viewpoints are stored in the position information storage means 32, the polygon data continuous display instruction means 34 issues a polygon data continuous display instruction (for example, by clicking an icon or button on the screen). Do). Upon receiving the instruction, the polygon data continuous display means 36 firstly, among the plurality of viewpoints stored in the position information storage means 32, a viewpoint for starting continuous display (referred to as viewpoint A), that is, the viewpoint position and the line-of-sight direction. Is read, and then the destination viewpoint (viewpoint B) is read.

  Subsequently, the viewpoint positions and the line-of-sight directions of the viewpoint A and the viewpoint B are respectively proportionally distributed, and as a result, the allocated viewpoint positions and the line-of-sight directions are extracted. Then, polygon data is read out from the polygon data storage means 18, and the polygon data from the viewpoint position and the line-of-sight direction extracted from the view point A to the view point B are sequentially and sequentially displayed on the three-dimensional CG space display device. I will let you. The proportional distribution is prorated by the number of times the distance between the viewpoint A and the viewpoint B divided by the unit distance. In addition, when other viewpoints are stored in the position information storage means 32, new viewpoints are read, and proportional distribution is performed in the same manner, and sequentially displayed on the three-dimensional CG space display device. I can let you.

Note that the viewpoint position is represented by an X coordinate, a Y coordinate, and a Z coordinate, and the line-of-sight direction is represented by an elevation angle and an azimuth angle.

The present invention allows a computer to have a function of displaying a three-dimensional shape based on three-dimensional shape data in a three-dimensional CG space display device from any viewpoint position and line-of-sight direction by a simple operation. Since it is possible to have the function of continuously displaying 3D shapes on a 3D CG space display device as if the user is moving in the space, a deeper 3D understanding of the contents of building equipment drawings It is possible to use suitably for obtaining.

It is the figure which showed the structure of the CAD system of the computer brought about by the three-dimensional CAD system program in the 1st Embodiment of this invention. It is the figure which represented the whole process of the CAD system of the computer brought about by the three-dimensional CAD system program in the 1st Embodiment of this invention with the flow. It is the figure which represented the process of the part which displays polygon data among the CAD systems of the computer brought about by the three-dimensional CAD system program in the 1st Embodiment of this invention with the flow. It is the figure which showed the structure of the CAD system of the computer brought about by the three-dimensional CAD system program in the 2nd Embodiment of this invention. It is the figure which represented the whole process of the CAD system of the computer brought about by the three-dimensional CAD system program in the 2nd Embodiment of this invention with the flow. It is the figure which represented the process of the part which displays polygon data continuously among the CAD systems of the computer brought about by the three-dimensional CAD system program in the 2nd Embodiment of this invention with the flow. It is the figure which showed the image by which polygon data is displayed on the three-dimensional CG space display apparatus from arbitrary viewpoint positions and line-of-sight directions.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Drawing data reading means 12 Three-dimensional shape data storage means 14 Data reflection instruction | indication reception means 16 Polygon data reflection means 18 Polygon data storage means 20 Polygon data display means 22 Viewpoint position input means 24 Viewpoint position storage means 26 Gaze direction input means 28 Line of sight Direction storage means 30 Position information storage means 32 Position information storage means 34 Polygon data continuous display instruction means 36 Polygon data continuous display means

Claims (2)

Drawing data reading means for reading building equipment drawing data including three-dimensional shape data into a computer;
3D shape data storage means for storing 3D shape data included in the building equipment drawing data read by the drawing data reading means;
Data reflection instruction receiving means for receiving a data reflection instruction for reflecting the three-dimensional shape data stored in the three-dimensional shape data storage means to polygon data;
When the data reflection instruction means receives a data reflection instruction, polygon data reflection means for reflecting the three-dimensional shape data stored in the three-dimensional shape data storage means to polygon data;
Polygon data storage means for storing polygon data reflected by the polygon data reflection means;
Viewpoint position input means for inputting a viewpoint position for the polygon data;
Viewpoint position storage means for storing the viewpoint position input by the viewpoint position input means;
Gaze direction input means for inputting a gaze direction with respect to the polygon data;
Gaze direction storage means for storing the gaze direction input by the gaze direction input means;
A polygon data stored in the polygon data storage means is read out, and the polygon data is read in accordance with the viewpoint position stored in the viewpoint position storage means and the line-of-sight direction stored in the line-of-sight direction storage means. A CAD system program for executing a function including polygon data display means to be displayed on a computer. Drawing data reading means for reading building equipment drawing data including three-dimensional shape data into a computer;
3D shape data storage means for storing 3D shape data included in the building equipment drawing data read by the drawing data reading means;
Data reflection instruction receiving means for receiving a data reflection instruction for reflecting the three-dimensional shape data stored in the three-dimensional shape data storage means to polygon data;
When the data reflection instruction means receives a data reflection instruction, polygon data reflection means for reflecting the three-dimensional shape data stored in the three-dimensional shape data storage means to polygon data;
Polygon data storage means for storing polygon data reflected by the polygon data reflection means;
Viewpoint position input means for inputting a viewpoint position for the polygon data;
Viewpoint position storage means for storing the viewpoint position input by the viewpoint position input means;
Gaze direction input means for inputting a gaze direction with respect to the polygon data;
Gaze direction storage means for storing the gaze direction input by the gaze direction input means;
The polygon data stored in the polygon data storage means is read out, and the polygon data is read into the three-dimensional CG space device according to the viewpoint position stored in the viewpoint position storage means and the line-of-sight direction stored in the line-of-sight direction storage means. Polygon data display means to be displayed;
Position information storage means for storing the viewpoint position stored in the viewpoint position storage means and the line-of-sight direction stored in the line-of-sight direction storage means as a viewpoint in the position information storage means;
When the position information storage means stores the viewpoint in the position information storage means a plurality of times, the viewpoint data between the position information and the polygon data in the line-of-sight direction are continuously displayed on the three-dimensional CG space display device. Polygon data continuous display instruction means for receiving an instruction to display;
When the polygon data continuous display instructing unit receives an instruction to sequentially display the polygon data, the viewpoint position and the line-of-sight direction at each viewpoint are proportionally distributed between the viewpoints, and the polygon data Polygon data continuous display means for reading out polygon data stored in the storage means and displaying the polygon data continuously and sequentially on the three-dimensional CG space display device according to the viewpoint position and line-of-sight direction obtained by the proportional distribution. A CAD system program for executing a function including the CAD system program.