JPH0627672B2 - Thermographic device - Google Patents

Description

TECHNICAL FIELD The present invention relates to a thermographic device for acquiring a temperature distribution image.

[Prior Art] Generally, in a thermography device, infrared rays generated from each point in a visual field are scanned and condensed and introduced into an infrared detector, and the obtained infrared image signal is sent to a cathode ray tube through a memory or as it is. , The temperature distribution image of the subject in the field of view is obtained.

In such a thermography device, the measurable range is wide, for example, 0 ° C. to 1000 ° C., but the temperature band to be displayed is, for example, 300 ° C. ± 30 ° C. (center temperature 300 ° C., temperature range 60 ° C.). It is properly selected and displayed according to the band.

[Problems to be Solved by the Invention] By the way, when the temperature of the subject varies and the temperature band is dispersed into, for example, three bands, for example, most of the subject falls within the range of 300 ° C. ± 2 ° C. When measuring an object with a thermography device such that one part is in the range of 280 ° C ± 2 ° C and the other part is in the range of 320 ° C ± 2 ° C, the band to be displayed is, for example, 300 ° C ± 25 ° C.
If the temperature distribution of the entire subject is understood by setting a wide value such that the entire subject is displayed without being saturated, it is impossible to grasp a minute temperature change. Therefore, the band to be displayed is 300 ° C ± 2 ° C or 280 ° C ±
If you set the temperature as narrow as 2 ℃, you can grasp the temperature distribution of the part of the subject contained in that band in detail, but you do not want to form an image because the rest of the subject is saturated, and you want to measure the overall shape of the subject or measure it. There was a drawback that the position of the part could not be grasped.

The present invention has been made in view of this point, and it is possible to specify an area to be displayed in an arbitrary temperature band on the display unit, set a display temperature band of the area, and display an image of these specified areas. Thus, it is an object of the present invention to provide a thermography device capable of grasping the entire shape of a subject or the position of a portion to be measured.

[Means for Solving the Problems] The present invention for achieving this object includes a camera section for detecting infrared rays emitted from a subject, and a signal processing section for processing an infrared video signal obtained from the camera section. In a thermography device including a display unit that displays a temperature distribution image of the subject based on the output of the signal processing unit, an area of the temperature distribution image displayed on the display unit that is desired to be displayed in an arbitrary temperature band is Area designation means for displaying a frame in the temperature distribution image, means for designating a temperature band to be displayed within the frame display area designated by the area designating means, and designation based on a signal from the means for designating the temperature band Means for taking out the infrared video signal in the selected temperature band, a memory for storing the taken infrared video signal as pixel data, and the display section for reading the pixel data from the memory A temperature distribution image of a temperature band designated based on the pixel data read from the memory in the area designated by the area designating means in the temperature distribution image displayed on the display unit. It is characterized by displaying.

Embodiments Embodiments of the present invention will be described in detail below with reference to the drawings.

FIG. 1 is a block diagram showing an example of a thermography device embodying the present invention. In FIG. 1, reference numeral 1 is provided with an infrared detector and an optical scanner for raster-scanning an image spot of the infrared detector within a field of view. The camera section. The infrared image signal obtained by the field-of-view scanning in the camera unit is converted into a signal having a linear relationship with temperature by the linearizer 2, and then the display temperature band is set by the central temperature adjusting circuit 3 and the temperature width adjusting circuit 4. It is converted into pixel data by the -D converter 5 and stored in the memory 6. The pixel data stored in the memory 6 is read out at a television speed by a memory controller 7 such as a microcomputer and sent to a display device 9 using a color cathode ray tube through a video signal conversion circuit 8. 10a,
Reference numerals 10b, 10c ... 10n are area designating boards for designating a region in the temperature distribution image displayed on the display device 9 in a certain temperature band by displaying a frame in the temperature distribution image. The area designating board has a digital switch a for designating the area number as shown in FIG. 2 and a push button switch for stepwise changing the size of the frame W showing the designated area as shown in FIG. b and push-button switches c for moving the display position of the frame W up, down, left, and right in steps are provided, and the areas designated by these switches are mutually exclusive and the same area cannot be designated. ing. 11a, 11b, 11c ... 11n are central temperature designating switches for designating the central temperatures of the respective regions designated by the respective region designating boards, and the central temperature adjusting circuit 3 is provided with the respective central regions by a signal from the central temperature designating switch. The center temperature of is set. 12a, 12b, 12c ...
Reference numeral 12n is a temperature band designating switch for designating a temperature band of each region designated by each region designating board. The temperature band of each region is set in the temperature band adjusting circuit by a signal from the temperature band designating switch. .

In the configuration as described above, the A / D converter 5 includes the camera unit 1.
For example, the infrared image signal obtained from
It is decomposed into 6 (256 pixels) digital data. Then, in the memory 6, as shown in FIG.
An area for storing temperature data of 256 × 256 pixels is set as 56 pixels and one screen has 256 lines.

The temperature range measurable by the thermographic device of FIG. 1 is, for example, 0 ° C. to 1000 ° C., and the output voltage of 0 V to 10 V of the linearizer 2 is 0 ° C. to 1000 ° C. as shown in FIG. If the dynamic range of the A / D converter 5 is 0 V to 10 V and the infrared image signal is multiplied by 10 in the temperature width adjusting circuit 4, it is indicated by two broken lines in FIG. 5 (a). To A-D converter 5
0 ° C-
The temperature range of 100 ° C. is a band of 100 ° C.

Further, if the center temperature adjusting circuit 3 shifts the direct current level of the infrared video signal as shown in FIG. 5 (b), the extraction position can be freely set within the range of 0 ° C. to 1000 ° C. In this example, A temperature range of 200 ° C. to 300 ° C. is taken out. Therefore, the temperature band (temperature range) displayed in the range of 0 ° C. to 1000 ° C. can be arbitrarily set by appropriately setting the gain of the temperature width adjusting circuit and the level shift amount in the central temperature adjusting circuit.

Now, as can be seen from the infrared image signal for any one line shown in FIG. 6, for example, the temperature range of the subject is 280 ° C. ± 2 ° C., one part is 300 ° C. ± 2 ° C. band, and the other part is When a subject whose temperature is in the range of 320 ° C. ± 2 ° C. is measured by the thermography device, for example, the central temperature adjusting circuit 3 and the temperature width adjusting circuit 4 may be used to measure 278 ° C. to 282 ° C.
Bands of 298 ° C to 302 ° C and 318 ° C to 322 ° C are selected. Therefore, the pixel data obtained from the A / D converter 5 belongs to the temperature band set by the center temperature designating circuit 3 and the temperature width designating circuit 4, and the pixel data is stored in the memory 6. Therefore, when the pixel data for one screen stored in the memory 6 at the time when the one-screen scanning by the camera unit 1 is completed is sequentially read and displayed in the order shown by the arrow f in FIG. When no area is designated, the display is as shown in FIG.
Areas A1, A2, and A3 are specified by the area specifying boards 10a, 10b, and 10c, and the temperature band of the area A1 is 278 ° C to 282 ° C, the temperature band of the area A2 is 298 ° C to 302 ° C, and the area A3 is Temperature range is 318 ℃
When it is specified at 322 ° C., as shown in FIG. 8, the temperature distribution image of each area is shown in 8 colors from the low temperature side to the high temperature side together with the frames W ₁ , W ₂ , and W ₃ showing the areas A1, A2, and A3. Is displayed in color. At this time, a portion other than each designated area that is not designated by the area designation board is displayed as a black and white temperature distribution image of 8 gradations. Therefore, when the temperature distribution of the subject is extremely different, it is possible to display the temperature distribution of the entire subject at the same time by setting the central temperature and the temperature band in accordance with the temperature bands of the respective regions.

Although the designated area is displayed in eight colors in the above embodiment, it may be displayed in a single color of eight gradations together with the frame W indicating the designated area.

Further, by displaying a numerical value indicating the displayed temperature range such as the center temperature and the temperature range together with the image, the displayed temperature range can be accurately grasped.

Further, it goes without saying that the portion performing the analog processing in the above embodiment may be replaced with the digital processing.

Further, the method of setting the temperature band may be such that not only the center temperature and the temperature range are given as in the above example, but also the lower limit temperature and the temperature range or the upper limit temperature and the lower limit temperature are given.

Furthermore, in the embodiment of FIG. 1, a plurality of area designation boards are prepared, but the area number, central temperature, temperature range, designated area, etc. may be input with one keyboard.

[Effects of the Invention] As described in detail above, according to the present invention, since it is possible to specify any area and to specify each specified area in any temperature band, the overall shape of the subject or the position of the portion to be measured can be determined. A thermographic device that can be grasped is provided.

[Brief description of drawings]

FIG. 1 is a block diagram showing an example of a thermography device embodying the present invention, FIG. 2 is a diagram for explaining an example of a region designation board, and FIG. 3 is a diagram showing an example of a designated region,
FIG. 4 is a diagram for explaining a pixel storage area of the memory,
5 (a) and 5 (b) are diagrams for explaining the relationship between the measured temperature range and the temperature range displayed therein, and FIG. 6 is a diagram showing an infrared image signal for one line, and FIG. 8 and 9 are display examples of the apparatus according to the present invention. 1: camera part, 2: linearizer, 3: central temperature adjusting circuit, 4: temperature width adjusting circuit, 5: A / D converter, 6: memory, 7: memory controller, 8: video signal converting circuit,
9: display device, 10a, ... 10n; area designation board,
11a, ... 11n: central temperature designation switch, 12a,
...... 12n: Temperature band designation switch.

Claims (2)

[Claims] 1. A camera section for detecting infrared rays radiated from a subject, a signal processing section for processing an infrared image signal obtained from the camera section, and a temperature distribution image of the subject based on the output of the signal processing section. In a thermography device having a display unit for displaying, a region designating unit for displaying a region of a temperature distribution image displayed on the display unit in a desired temperature band in a frame in the temperature distribution image, and the region designating unit. Means for designating a temperature band to be displayed within the frame display area designated by the means, means for extracting an infrared video signal in the designated temperature band based on a signal from the means for designating the temperature band, and A memory for storing the infrared video signal as pixel data and a means for reading the pixel data from the memory and supplying the pixel data to the display unit are provided, and a temperature component displayed on the display unit is provided. Thermography apparatus being characterized in that so as to display the temperature distribution image of the specified temperature range based on the pixel data read from the memory to the designated region by the area specifying means in the image. 2. The thermograph according to claim 1, wherein a temperature distribution image of a region designated by the region setting means is displayed on the display unit and a numerical value representing a temperature band of the region is displayed. apparatus.