JPH01105125A - Display device - Google Patents

Abstract

PURPOSE:To improve the practical usage by taking out an image data from an image display memory, extracting its contour and aligning the contour display with the other image so that contour data is written in a dot memory at CPU. CONSTITUTION:An analog temperature signal detected by an infrared detection part 1 is A/D-converted 2 and this image data is sent to an image memory 3 and an image display memory 4. Further, image data written directly in the memory 4 from the converter 2 is updated, frame by frame, and a measured body is displayed on a display part 5 as an moving image. Then the contour display key of a keyboard 7 is turned on and then the CPU 6 sets a constant contour value for the image data according to the temperature difference between a display image and a background part, checks temperature corresponding to the contour value in an X and Y direction, and extracts points which cross it as a contour. This contour data is written in a dot memory 9 and further added by an addition part 10 to the image data in the memory 4, and the composite data is sent to the display part 5. Consequently, the measured image and its contour are displayed 5 one over the other.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a display device suitable for use in, for example, an infrared radiation thermometer.

[Summary of the invention]

The present invention provides a display device for use in an infrared radiation thermometer.
After extracting the outline of one image, this outline is compared with other images and displayed, thereby making it possible to easily align the measurement images.

[Conventional technology]

For example, when measuring the temperature distribution of a specific part of the human body,
An infrared radiation thermometer is used that detects infrared energy emitted from the surface of an object to be measured and displays the temperature distribution as a color or monochrome image corresponding to the temperature.

Some display devices for infrared radiation thermometers display the outline of the image in order to make the shape of the measurement image more clear. A conventional display device of this type of infrared radiation thermometer stores image data detected by an infrared detection section in a plurality of image memories, extracts an outline from the image data in each image memory, and displays the outline data. The contour data in each dot memory is stored in a dot memory provided corresponding to each image memory, and the contour data in each dot memory is combined with the image data in each image memory and displayed.

[Problem that the invention seeks to solve]

In this way, the display device of a conventional infrared radiation thermometer is designed to display the outline for each processing unit of image data stored in each image memory, so the outline extracted from one image can be displayed in other units. cannot be displayed over the image. Therefore, the use of this contour has been limited solely to the purpose of clarifying the shape of the measurement image.

The present invention has been made in view of the above, and an object of the present invention is to provide a highly practical display device by using outline display for positioning other images.

[Means for solving problems]

In order to achieve the above object, the display device of the present invention includes an infrared detection section (1) that scans infrared energy naturally radiated from the surface of an object and converts it into an analog temperature signal;
An A/D converter (2) that converts this analog temperature signal into digital image data, an image memory (3) that stores this image data for multiple screens, and this image memory (3) or A/D converter ( An image display memory (4) into which the image data transferred from 2) is written, and a control section that retrieves image data from the image display memory (4) and extracts its outline by inputting the keyboard (7) as an operation section. and a dot memory [9] into which the contour data extracted by this CPU (6) is written.
and a display section (5) that synthesizes and displays the image data in the image display memory (4) and the contour data in the dot memory (9).
It consists of the following.

C action] The measures described above operate as follows.

For example, image data acquired in the past can be stored in the image memory (3).
The contour data is extracted from this image data by the CPU (6) by operating the keyboard (7), and the contour data is transferred to the image display memory (4) via the dot memory (9). ) and output to the display unit (5), the outline of the image is displayed on the display screen, overlapping the previously acquired image. Then, by writing the image data acquired by the infrared detection unit (1) in real time into the image display memory (4), leaving only this outline displayed, the real-time image is superimposed on the outline of the past image. Therefore, the real-time image can be aligned with the same position as the past image.

〔Example〕

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

In this embodiment, a case will be described in which the present invention is applied to an infrared radiation thermometer.

Fig. 1 is a block diagram showing the configuration of the display device of an infrared radiation thermometer. Infrared energy naturally radiated from
It consists of a scanning mirror that optically scans sequentially in the direction, an objective lens that focuses the obtained infrared energy, and an infrared detector that converts the infrared energy focused by this objective lens into an analog temperature signal corresponding to the temperature distribution. The analog temperature signal detected by the infrared detector (1) is converted into digital image data by the A/D converter (2), and this image data is stored in the image memory (3).
and is sent to the image display memory (4).

The image memory (3) can store the image data sent from the A/D converter (2) for multiple screens, for example, 8 screens, and the image display memory (4) can store the image data sent from the A/D converter (2).
3) Alternatively, the image data sent directly from the A/D converter (2) is written for one frame, and the image written in the image display memory (4) The data is sent to the display section (5), where it undergoes image processing and is displayed on the display screen.

On the other hand, (6) is a CPU as a control unit, and this CPU (6) retrieves image data from the image display memory (4) according to a program stored in the ROM (8) through input operations on the keyboard (7). , extracts and erases the contour.

That is, when the contour display key on the keyboard (7) is turned on, a certain contour value is set in the image data based on the temperature difference between the displayed image and the background, and the temperature corresponding to this contour value is checked in the X and Y directions. , points that cross this are extracted as a contour.

The contour data extracted from the image data in the image display memory (4) by the CPU (6) in this way is
The contour data in the dot memory (9) is then combined with the image data in the image display memory (4) in the adding section (10) and displayed on the display section (5).
), and therefore the measurement image and its outline are displayed on the display screen of the display unit (5) in an overlapping state.

Also, when the contour display cancel key on the keyboard (7) is turned on, all the contour data written in the dot memory (9) is erased, and therefore the contour is erased on the display screen of the display section (5). Only the measurement image is displayed.

Next, a specific example of the operation of the display device of the infrared radiation thermometer configured as described above will be explained.

In the display device of this example, in a normal state, the infrared detection section (1)
The image data detected by the A/D converter (2) is directly written into the image display memory (4). The image data written to the image display memory (4) is updated every frame, so the display screen of the display unit (5) shows the object to be measured corresponding to the infrared detection unit (1) as a moving image in real time. It is displayed as .

When this image is made into a still image and the contour display key on the keyboard (7) is turned on, the contour is extracted as described above, and the measurement image a (with the contour extracted) is displayed on the display screen A as shown in FIG. In this example, a human hand) and its outline are displayed overlapping each other. Then, when the image is displayed as a moving image and another measurement object (hand) is made to correspond to the infrared detection section (1) instead of the measurement object (hand) currently being measured, the image data of this new measurement object is is written from the A/D converter (2) to the image display memory [4], and therefore the new image is displayed on the display screen A with the outline of the previous image remaining, as shown in Figure 2. Images C are displayed overlapping each other.

Therefore, the contour of the previous image can be compared with the new image C, and by moving the object or device to match the image C of the object to the contour of the previous image, the contour of the previous image can be compared. The measurement image position can be set to the same position.

It is also possible to store the image data detected by the infrared detection section (1) in the image memory (3) in advance, and compare the outline of this previously acquired image with the image acquired in real time. That is, the image data acquired in the past is retrieved from the image memory (3), transferred to the image display memory (4) and displayed on the display screen of the display section (5), and in this state, the outline display key of the keyboard (7) is pressed. By turning on, the outline is extracted as described above, and the outline is displayed on the display screen of the display unit (5) in a state where the outline is overlapped with the still image acquired in the past.

Then, by sending the image data of the object to be measured currently corresponding to the infrared detection section (1) from the A/D converter (2) to the image display memory (4), the display screen of the display section (5) is displayed. , images acquired in real time are displayed overlapping each other with the outlines of past images remaining.

Therefore, by moving the measurement object or the device to match the image of the measurement object with the outline of the past image, the measurement image can be obtained at the same position as the past image.

By storing the image data of multiple screens in the image memory (3) with the position of the measurement image set to the same position according to the contour as described above, for example, at the time of screening (group medical examination), It is possible to record measurement images of a large number of people at the same position, and it is also possible to record a plurality of measurement images of the same person at the same position and easily compare and examine their history.

Although this embodiment shows an example in which the present invention is applied to an infrared radiation thermometer, the present invention is not limited to this infrared radiation thermometer, but can be applied to display sections of various measuring instruments that display outlines. It is widely applicable to

〔Effect of the invention〕

As described above, according to the display device of the present invention, after extracting the contour of one image, this contour can be compared with other images, so that the position of the measurement image can be easily set to always be the same position. In particular, when this device is used for medical treatment, it can be used to easily perform screening and compare the history of the same person, and has great effects using contour display that conventional display devices do not have, and its practicality. is large.

[Brief explanation of the drawing]

FIG. 1 is a block diagram showing an example of the configuration of a display device of the present invention;
FIG. 2 shows the display state of the display screen, with A being a state in which the measurement image and its outline are displayed, and B being a state in which the current measurement image is displayed superimposed on the outline of the previous image. In the figure, (1) is an infrared detector, (2) is an A/D converter,
(3) is image memory, (4) is image display memo! j, (5
) is the display, (6) is the CPU, (7) is the keyboard, (
9) is a dot memo. A Table L! ! J[fllll No.: 0 table 7r, station is also map 2

Claims (1)

[Claims] A detection unit that scans the measurement object and extracts an analog signal, and an A/D that converts this analog signal into digital image data.
a converter, an image memory that stores this image data for a plurality of screens, an image display memory into which image data transferred from this image memory or the A/D converter is written, and an image display memory that stores the image data for multiple screens; A control section that extracts image data from the display memory and extracts its outline, a dot memory into which the outline data extracted by this control section is written, and an image data written to the image display memory and written to the dot memory. A display device comprising a display unit that displays an image by combining the entered contour data and the image.