JPH01185251A - Tomographic image spread position display unit for ultrasonic diagnostic device - Google Patents

Abstract

PURPOSE:To realize a function, which enables a relative position of a spread image for the total image to be visibly understood, preventing a device from being complicated further the spread image to narrow its display range by displaying two marks overlapping with the spread image by a picture image data in the same image plane by a picture image overlapping means. CONSTITUTION:A tomographic image of a B mode sector is displayed in a display unit 8. A picture plane overlapping circuit 7 compounds an external shape mark and a box cursor mark with a spread image, and the display unit 8 displays a position relation diagram 10 of spread region by a spread tomographic image 9 and the external shape of the summarized total image. Next by a box cursor position setting circuit 4, when the spread image moves its region, a box cursor mark generating circuit 5 inputs position information of the preset spread region generating the box cursor mark having coordinates of a position corresponding to the movement. Accordingly, even when the spread region is moved being associated with the movement of the region of the spread image, the relative position relation for the total image can be visibly understood.

Description

Detailed Description of the Invention (Industrial Application Field) The present invention zooms (enlarges) a desired region in an ultrasonic tomographic image and displays it on the display device, and sets the position of the enlarged region using a setting means. The present invention relates to a tomographic image enlarged position display device for an ultrasonic diagnostic apparatus having a moving function, and more particularly to a device that allows the relative position of an entire image to an enlarged image to be visually understood.

(Prior Art) Generally, in an ultrasonic diagnostic apparatus, a desired area in a normal tomographic image is enlarged and displayed by B-mode display, and the position of the enlarged area is moved using a trackball or the like, It has a zoom function for detailed diagnosis of the area. However, with such a zoom function, if you first enlarge a tomographic image and then move within that range, it becomes difficult to determine which area the enlarged area is, that is, its relative position to the overall image. The problem is that it becomes difficult. Therefore, when enlarging a certain part of an image and moving it, display the enlarged image on one of the two screens, and display the entire image at a lower magnification as a reference image on the other screen to solve the above problem. There is an improved ultrasonic diagnostic device that solves this problem (Japanese Patent Application Laid-Open No. 61-238237, Japanese Patent Application Laid-Open No. 62-
No. 38144). FIG. 4 is a diagram showing the display state of such a conventional ultrasonic diagnostic apparatus. In Figure 4, 1
is a display means for displaying a tomographic image, and A and B are its two screens.As shown in the figure, by simultaneously displaying the entire image on the screen and the enlarged image on the other side of the screen, it is possible to display the entire image of the enlarged image. This has the effect of being able to visually grasp relative positional relationships.

(Problem to be Solved by the Invention) However, in an ultrasonic diagnostic apparatus equipped with two screens for displaying an enlarged image and an overall image as described above, the area set by the setting means is The corresponding image data and the data for the entire image are read out, or data is taken alternately by changing the ultrasonic scanning method for each, and the data is displayed simultaneously on each of the two screens, which makes the device complicated and expensive. Become something. In addition, since two types of tomographic images with different magnifications are displayed, the enlarged image cannot be displayed using the entire display screen, and the display range of the enlarged image becomes narrow, resulting in a decrease in the magnification ratio and a narrowing of the enlarged range. occurs.

The present invention has been made in view of the above-mentioned problems, and it is an object of the present invention to provide a function that allows the relative position of an enlarged image to the overall image to be visually understood without complicating the device, and to reduce the display range of the enlarged image. An object of the present invention is to provide a tomographic image enlargement position display device for an ultrasonic diagnostic apparatus that is realized without narrowing the area.

(Means for Solving the Problems) In order to achieve the above object, the tomographic image enlarged position display device of the ultrasonic diagnostic apparatus of the present invention has the following configuration. That is, in a tomographic image enlarged position display device of an ultrasound diagnostic apparatus having a function of displaying an enlarged image and moving the area, an image of the enlarged area is retrieved from a storage means in which tomographic image data after signal processing is stored. In addition to reading and outputting data, the setting means generates an outline mark representing the outline of the tomographic image before enlargement by the outline mark generating means, and moves the position of the enlarged display area by the enlarged area mark generating means. information is input, an enlarged area mark representing an enlarged display position is generated at a predetermined position on the external mark in accordance with the movement of the area, and the image superimposing means converts the two marks into an enlarged image based on the image data. It is characterized by being displayed overlappingly on the same screen.

(Example) Hereinafter, the present invention will be explained in detail with reference to the drawings.

FIG. 1 is a block diagram showing an enlarged image position display device according to an embodiment of the present invention. In FIG. 1, a zoom function start button 2 is arranged on a switch panel (not shown) and outputs a zoom function start command signal when operated by an operator. The outline mark generation circuit 3 generates an outline mark representing the outline (fan shape) of the tomographic image of the B-mode sector before enlargement, in accordance with the start command signal. The box cursor position setting circuit 4 is composed of, for example, a trackball, and sets the movement position of the displayed enlarged area after the zoom function is started. The positional information of the set enlarged area is input, and a rectangular box cursor mark representing the relative position of the enlarged area to the overall image is generated at a predetermined position on the outline mark.

The image memory 6 is a DSC (Diaital 5c).
It stores the tomographic image data after processing the received signal for one frame, reads out the enlarged image data corresponding to the area set by the box cursor position setting circuit 4, and outputs it to the display section. do. The screen superimposition circuit 7 is composed of a high-speed switch ink circuit, etc., and outputs the superimposed outline mark and box cursor mark together with the enlarged image to the CR7 display device 8. Screen superimposition is performed by writing an outline mark and a box cursor mark on the graphic screen where the ID and date are written, and by compositing this with the tomographic image screen where the enlarged image is written, so that the same screen on the display device 8 The enlarged tomographic image, the outline of the schematic overall image, and the positional relationship diagram of the enlarged area are displayed above.

In the above configuration, the operation of the enlarged image position display device of this embodiment will be explained with reference to FIGS. 2 and 3. FIG. 2 is a flowchart showing the operation of the enlarged image position display device of this embodiment, and FIGS. 3(a) and 3(b) are diagrams showing examples of enlarged image position display of this embodiment.

First, when the tomographic image of the B-mode sector is displayed on the display device 8, the zoom function start button 2 is pressed to start the zoom function. At the same time, the image memory 6 reads and outputs the enlarged image data of the preset area, and displays the image data of the display bag @8.
Display an enlarged image.

Here, the external mark generation circuit 3 generates the sector-shaped external mark, and the box cursor mark generation circuit 5 generates the sector-shaped external mark.
A box cursor mark is generated corresponding to the position of the enlarged area. Then, the screen superimposition circuit 7 synthesizes the outline mark and the box cursor mark with the enlarged image and displays the enlarged tomographic image 9 and the outline mark 11 on the display device 8 as shown in FIG. 3(a). box cursor mark 1
A diagram 10 showing the positional relationship between the outline of the simplified overall image consisting of 2 and the enlarged area is displayed. Next, when the area of the enlarged image is moved by the box cursor position setting circuit 4, the box cursor mark generation circuit 5 inputs the position information of the enlarged area set from the box cursor position setting circuit 4, and uses this position information. A coordinate transformation is performed to convert the external shape mark into predetermined position information, and a box cursor mark having coordinates of a position corresponding to the movement is generated. Therefore, as the enlarged image area moves, the box cursor mark on the outline mark moves as shown in FIG. can be understood visually.

In this way, by displaying the outline mark and the box cursor mark corresponding to the movement of the enlarged image area together with the enlarged image, it is possible to visually understand the relative positional relationship of the enlarged image to the overall image.

Here, in the apparatus of this embodiment, the above-mentioned schematic diagram is generated by the outline mark generation circuit 3 and the box cursor mark generation circuit 5 without displaying two types of tomographic images with different magnifications, so that the circuit configuration is It becomes simple and the enlarged image can be made into an area that uses the entire display surface.

Note that the present invention is not limited to the above embodiments, and various modifications can be made within the scope of the claims.

For example, the shape of the external mark is not only sector-shaped, but also linear (square), convex (part of a fan), etc.
It may be used differently depending on the ultrasound scanning method. Further, if the size of the area to be enlarged is changed, the size of the box cursor mark may be changed accordingly. Furthermore, it may be used for the C mode zoom function.

(Effects of the Invention) As explained above, according to the tomographic image enlarged position display device of the ultrasonic diagnostic apparatus of the present invention, the following effects can be obtained. That is, in an ultrasonic diagnostic apparatus equipped with a zoom function, the position information of the enlarged area is obtained from an outline mark generation means that generates an outline mark representing the outline of the tomographic image before enlargement, and a setting means that moves the position of the enlarged display area. an enlarged area mark generating means for generating an enlarged area mark indicating an enlarged display position at a predetermined position on the external mark in response to the input; and a storage means for storing the tomographic image data after the signal processing. means for reading out and outputting the image data of the enlarged area from the image data; and image superimposing means for displaying the two marks together with the enlarged image of the image data on the same screen; Since a schematic diagram using enlarged area marks corresponding to the movement of the image is displayed, the relative positional relationship of the enlarged image to the overall image can be visually understood without displaying tomographic images with two different magnifications. That is, the relative position of the enlarged image area is expressed by two mark generation means,
Therefore, the circuit configuration for displaying the relative position becomes simple and can be manufactured at low cost.

Also, since the schematic diagram is superimposed on the same screen as the enlarged image,
The enlarged image can be displayed using the entire display screen, and the enlargement ratio can be increased to widen the enlarged range.

[Brief explanation of the drawing]

FIG. 1 is a configuration diagram showing an enlarged image position display device according to an embodiment of the present invention, FIG. 2 is a flow diagram showing the operation of the enlarged image position display device according to the present embodiment, and FIG. (b) is a diagram showing an example of displaying the position of an enlarged image according to the present embodiment, and FIG. 4 is a diagram showing a display state of a conventional ultrasonic diagnostic apparatus. 1...Display surface, 2...Zoom function start button, 3.
...Outline mark generation circuit, 4.Box cursor position setting circuit, 5.Box cursor mark generation circuit, 6.Image memory, 7.Screen superimposition circuit, 8.Display device, 9. ...
Enlarged tomographic image, 10... Positional relationship diagram of the enlarged area of the whole image, 11... Outline mark, 12... Box cursor mark

Claims (1)

[Scope of Claims] After transmitting ultrasonic waves into a living body, receiving the reflected waves, performing predetermined signal processing, and displaying a tomographic image whose brightness is modulated according to the reflected intensity on a display means, In a tomographic image enlargement position display device for an ultrasound diagnostic apparatus, which has a function of enlarging and displaying a desired area in a tomographic image and moving the position of the enlarged display area by a setting means, the outer shape of the tomographic image before enlargement is external shape mark generating means for generating a representative external shape mark; and inputting position information of the enlarged area from the setting means, and correspondingly generating an enlarged area mark representing an enlarged display position at a predetermined position on the external shape mark. enlarged area mark generating means; means for reading and outputting the image data of the enlarged area from a storage means in which the tomographic image data after the signal processing is stored; 1. A tomographic image enlargement position display device for an ultrasonic diagnostic apparatus, comprising: image superimposing means for superimposing images on a screen.