JPH04205570A - Three-dimensional temperature distribution display method - Google Patents

Abstract

PURPOSE:To easily grasp the temperature distribution of the whole analyzed space with once picture display by displaying the respective analyzed space as one plane, displaying picture the three-dimensionally by the perspective method and developing and displaying the temperature distribution of the analyzed space corresponding to the respective planes. CONSTITUTION:A device provides plural air flow sensors 10l to 10n so as to execute the instrumentation of the air flow of plural points in analyzed space into which the whole space to be an observation object is divided every same level, besides, an air flow analyzer 12 is connected to the respective sensors 10l to 10n and it fetches detecting data from the respective sensors 10l to 10n and calculates temperature at a measuring point. Temperature distribution is displayed with the temperature data of the same level as one plane 20 based on the temperature data at analyzed space respective positions obtained by air flow analysis, the plane 20 corresponding to the analyzed space of the same level is three-dimensionally displayed by perspective method and after that, the temperature distribution is developed to the respective planes 20. Thus, the whole temperature distribution of the object space to be analyzed can be grasped simultaneously and visually.

Description

[Detailed description of the invention] [Industrial application field]

The present invention relates to a method for displaying three-dimensional temperature distribution, and in particular, it relates to a method for displaying a three-dimensional temperature distribution, and in particular, a method for displaying a temperature distribution in which a plurality of analysis spaces are simultaneously displayed three-dimensionally using a computer image so that the temperature distribution can be visually grasped. Regarding display method.

[Conventional technology]

In general, temperature data at the same level is detected through airflow analysis, and this is subjected to computer image processing to display the temperature distribution in the analysis space. This can be done, for example, by analyzing the airflow on each floor and detecting the temperature distribution on each floor in order to study air blowing for heating and cooling in a building or room, or by analyzing the temperature distribution due to differences in height within a room. It is done to detect. Conventionally, in this type of temperature distribution display, temperature data is detected for each analytical cross section, and this is then developed on a two-dimensional plane. When displaying such data as a computer image, a method is used in which the temperature distribution for each level is developed on a two-dimensional plane and displayed on each screen.

[Problem to be solved by the invention]

However, the above-mentioned conventional display method has a drawback in that it is not possible to grasp the temperature distribution of the entire building or the entire room by displaying the screen twice. Furthermore, although it is possible to display a plurality of analysis cross sections side by side on one screen, the three-dimensional image is poor and it is not easy to visually grasp the temperature distribution throughout the room at a glance. An object of the present invention is to focus on the above-mentioned conventional problems, and to display the temperature distribution of a plurality of analysis spaces, it is an object of the present invention to display an image that makes it easy to grasp the temperature distribution of the entire analysis space with one image display. We are here to provide you with a method.

[Means to solve the problem]

The temperature distribution display method according to the present invention detects the temperature distribution based on airflow analysis in a plurality of analysis spaces, and when displaying the analysis results on a computer image, displays each analysis space as one plane and provides perspective. The image was displayed three-dimensionally using a projection method, and the temperature distribution data of the analysis space corresponding to each plane was displayed in an expanded manner.

[Effect]

According to the above configuration, the temperature distribution is displayed as one plane based on the temperature data at the analysis space level obtained by airflow analysis, but it corresponds to the analysis space at the same level. Since the planes are displayed three-dimensionally using perspective drawing and the temperature distribution is developed in each plane, it is possible to visually grasp the entire temperature distribution of the space to be analyzed at the same time.

【Example】

Hereinafter, specific embodiments of the three-dimensional temperature distribution display method according to the present invention will be described in detail with reference to the drawings. FIG. 1 is a configuration diagram of an apparatus for realizing a three-dimensional temperature distribution display method according to an embodiment. As shown in this figure, the device uses multiple airflow sensors 1 to measure airflow at multiple points in an analysis space where the entire space to be observed is divided into the same level.
0 (10,,102,..., lO,,). Further, an airflow analyzer 12 is connected to each sensor 10 to take in detection data from each sensor 10 and calculate the temperature at the measurement point. Further, the plane coordinate position of each sensor 10 is inputted in advance to the airflow analyzer 12, so that the relative distance between each sensor 10 can be output. A group of 10 such sensors is installed in each analysis space, and airflow analysis is performed for each level to determine temperature distribution. That is, for example, when an entire room is used as an analysis space, analysis levels are set at different heights, and the 10 groups of sensors are set for each level,
The temperature distribution is detected for each analysis space at the same level. On the other hand, a computing unit 14 is connected to the airflow analyzer 12,
This computing unit 14 takes in measurement data for each level and performs processing for three-dimensional display. That is, in the computing unit 14, based on the output data from the analyzer 12, three-dimensional coordinate position data consisting of plane coordinate data between the sensors 10 and coordinate data for each measurement level is combined with temperature data at the position. The information is stored as a file in the memory 16 or the like. In addition, a three-dimensional processing device 18 is provided which inputs the output data of the analyzer 12. Here, the measurement area of each analysis space level is set as one plane 20, and this is three-dimensionally processed by perspective drawing while giving level differences. Plain display data is processed so that it can be displayed (see Figure 2). This can be easily obtained, for example, by correcting the area display data such that compression processing is performed at a constant ratio from one side of each two-dimensionally displayed measurement area to the opposite side. Then, image processing is performed so that the plurality of planes 20 are displayed on the same screen with intervals proportional to the level difference between the measurement regions. After such three-dimensional processing, the temperature distribution processing section 22 of the computing unit 14 reads data from the file on the memory 16, and stores the temperature data on the three-dimensional plane 20 created by the three-dimensional processing device 18. I'm trying to expand it. Since each piece of temperature data has three-dimensional position coordinates, the corresponding plane 20 and the plane position coordinates on the plane 20 are specified from the coordinates. The analyzed temperature data may be mapped to this specific position. After developing the temperature distribution, the isothermal line processing unit 24 displays isomixture lines 26 in which the same temperature is connected by continuous curves on each plane 20. This can be obtained by calculating the temperature gradients at adjacent measurement points and processing the data to connect them at appropriate temperature difference intervals. After that, it is sent to the coloring processing section 28 as necessary.
Here, each area surrounded by the isostratic line is processed to have a different color. The result of performing such a series of processing inside the arithmetic unit 14 is output to the display 30, where the second
As shown in the figure, temperature data at the same level can be displayed on one plane 20 while a plurality of planes at a plurality of different levels can be displayed three-dimensionally. As described above, according to this embodiment, when displaying the temperature distribution on a computer image from airflow analysis, the three-dimensional coordinates of the temperature calculation location in the analysis space obtained by the analysis and the temperature data at that location are used to display the temperature distribution on a computer image. It is possible to extract all points at the same level and display a plurality of each section at once, as shown in FIG. Moreover, in a computer, by having coordinates in three dimensions, by rotating and moving the analysis target space, it is also possible to understand the overall temperature distribution by changing the viewpoint. In the above embodiment, it is of course possible to display the level divided horizontally, or it is possible to display the level divided vertically as shown in FIG. These three-dimensional processes depend on how the analysis space is defined, and can be set arbitrarily.

【Effect of the invention】

As explained above, according to the three-dimensional temperature distribution display method according to the present invention, when detecting temperature distribution based on airflow analysis in a plurality of analysis spaces and displaying the analysis results on a computer image, each analysis The space is displayed as one plane, and the image is displayed three-dimensionally using perspective drawing, and the temperature distribution data of the analysis space corresponding to each plane is expanded and displayed, so the temperature distribution of the entire analysis target space can be visualized. This has the effect that it can be directly and easily grasped.

[Brief explanation of the drawing]

FIG. 1 is a configuration diagram of an apparatus for carrying out the three-dimensional temperature distribution display method according to the embodiment, FIG. 2 is a diagram of a temperature distribution display state by a display, and FIG. 3 is an explanatory diagram of another three-dimensional display state. . 10... Airflow sensor, 12... Airflow analyzer, 14... Arithmetic unit, 16... Memory,
18... Three-dimensional processing device, 20... Plane, 22... Temperature distribution processing section, 24...
... Isothermal line processing section, 28 ... Coloring processing section, 3
0...Display. Applicant Hitachi Plant Construction Co., Ltd. I21I Figure 3

Claims (1)

[Claims] (1) When detecting the temperature distribution based on airflow analysis in multiple analysis spaces and displaying the analysis results on a computer image, each analysis space is displayed as one plane and three-dimensionally using perspective drawing. A three-dimensional temperature distribution method characterized by displaying an image and expanding and displaying temperature distribution data in an analysis space corresponding to each plane.