JPH08101354A - Microscope - Google Patents

Abstract

PURPOSE: To easily adjust a scale to an image picked up substance so as to measure length by detecting the direction of the scale displayed by a display means and optionally varying the position of scale display in accordance with a detection signal. CONSTITUTION: Focusing is performed while allowing an objective part 1 to come close to the image picked up substance whose length is measured and confirming them by a television monitor 13. After confirming that the image picked up substance is caught by the television monitor, the position of the scale is adjusted to measure the length. Thereafter, a scale position operating means 11 consisting of a joy stick, etc., is operated to change the scale display position and a scale angle operating means 12 consisting of a rotary switch, etc., is operated to change the display angle of the scale, then the length is measured by adjusting the scale to the part of the image picked up substance, where the length is measured. Since the division of the scale at such a time is changed interlocked with display magnification, it need not be adjusted even when the display magnification is changed halfway.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION The present invention relates to medical applications for inspecting the condition of human skin, cosmetics promotional applications, learning and educational applications for viewing enlarged images of animals and plants, and other industrial inspection equipment applications.
The present invention relates to a microscope suitable for use in enlarging and observing a subject by a television monitor or measuring the length of the subject.

[0002]

2. Description of the Related Art Conventionally, various attempts have been made to enlarge the size of an image pickup object and measure its length. For example, in the field of microscopes, a glass plate on which a scale is printed is placed in the vicinity of the imaged object to measure the length.
Also, in the case of the type that measures the length of the image on the TV monitor by displaying the imaged object, an object that measures the distance by designating two points on the TV monitor or a circle whose display position and radius can be freely changed is displayed. Then, the length is measured by displaying the length of the radius.

In the field of endoscope, Japanese Patent Publication No. 4-7
The invention of the length-measuring endoscope described in Japanese Patent No. 3763 has means for displaying a reference line, a cross line, and a square in the visual field. In addition, the invention of the endoscope measuring apparatus described in Japanese Patent Publication No. 4-36364 has means for generating a scale pattern according to the distance between the imaged object and the objective part. Further, in the invention of the subject size measuring apparatus for an electronic endoscope disclosed in Japanese Patent Publication No. 4-31252, a means for measuring a distance by bringing an imaging object and a probe into contact with each other, and at the same time, stopping the image, The length of the imaged object is measured by a means for displaying a reference line for confirming the actual dimensions.

[0004]

However, with the above-mentioned conventional structure, the portion of the imaged object to be measured and the scale are always in parallel, and the position is not always easy to measure. No, to match it, the lens part, or
It is necessary to move the imaged object, which is troublesome and may cause the imaged object to be lost.

In the method of measuring the length by designating two points, the length between the two points can be easily measured, but since the scale is not displayed, the image of the entire length can be grasped. There was a difficult drawback. In addition, in a microscope in which the display magnification can be changed, it is necessary to reset the reference length for length measurement each time the magnification is changed, which is troublesome.

[0006] And, in the type of performing scale display,
Since the minimum scale of the scale display is fixed, the minimum scale width becomes large depending on the display magnification, making accurate measurement difficult.In addition, if the minimum scale width is sufficiently small, the scale may be clogged due to the display magnification. , There was a drawback that it was hard to see. In addition, there are drawbacks that it is difficult to measure the length of a moving object that disappears from the field of view.

Therefore, the present invention provides a microscope aimed at eliminating these drawbacks.

[0008]

In order to eliminate the above-mentioned drawbacks of the prior art, the scope of the present invention is to detect the direction from the scale position operating means and to arbitrarily change the display position of the scale, and to operate the scale angle. Means for detecting the angle by means of means for varying the display angle of the scale arbitrarily, and means for changing the minimum scale width and the minimum scale length of the scale according to the display magnification by a signal from the display magnification detecting means of the objective section. , Means for arbitrarily stopping the image.

[0009]

With the above-described structure, the microscope of the present invention has a scale position operating means for detecting the direction of an object imaged at an arbitrary position and an arbitrary angle and displayed on a television monitor. By moving the position of and the angle detection by the scale angle detecting means, it is possible to change the display angle of the scale and move the scale to a position and an angle where the length measurement is easy to perform the length measurement.

Further, the minimum scale unit of the scale is automatically changed according to a signal from the display magnification detecting means of the objective part, and the display length of the minimum unit scale is increased by the same detecting means as the magnification increases. Since the display is sequentially shortened, it is possible to perform the scale display that is easy to measure regardless of the display magnification. Then, even for the length measurement of the imaged object which disappears from the visual field immediately, it is possible to easily perform the length measurement by arbitrarily stopping the image.

[0011]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the microscope of the present invention will be described below with reference to the drawings. FIG. 1 is a block diagram showing an embodiment of the microscope of the present invention. In FIG.
1 is an objective unit which is a lens system including a display magnification changing mechanism, and 2
Is a CCD camera unit that forms an image of the imaged object obtained by the objective unit 1 and converts it into a video signal, 3 is an A / D conversion unit that converts an analog video signal into a digital signal, and 4 is an image memory A still image memory unit 5, a D / A converter unit for converting the digital signal from the still image memory unit 4 into an analog video signal again, and 6 a composite of the video signal from the D / A converter unit 5 and a scale image. It is a video composition to do.

Reference numeral 7 is a display magnification detecting means for detecting the display magnification of the objective portion 1 including a potentiometer, and 8 is control of the still image memory portion 4, creation of a scale image, analysis of signals from the respective detecting means, and the like. A microcomputer section 9 for performing the operation is a video RAM section for a scale image having a capacity of one screen of an image in which display pixels and memory contents are in a 1: 1 correspondence. 1
Reference numeral 0 is a scale angle operating means for operating the display angle of the scale composed of a rotary switch or the like, 11 is a scale position operating means for operating the display position of the scale composed of a joystick or the like, and 12 is a push switch or the like. A still image operating means for switching between a through image and a still image, and a television monitor 13 for measuring an image of an imaged object.

Next, a usage state of the microscope configured as described above will be described. First, after the power is turned on, the objective unit 1 and the object to be measured are brought close to each other, and the television monitor 13 confirms the focus. Here, since the focal length is constant irrespective of the display magnification, the objective unit 1 may be fixed to the loading platform or the like in advance at a position where the focus is achieved.

After confirming that the imaged object is captured on the TV monitor, the position of the scale is adjusted to measure the length, but if the imaged object moves and it is difficult to measure the length, a still image operation including a push switch or the like is performed. By operating the means 12, it is possible to measure the length of a still image.

After that, the scale display position is changed by operating the scale position operating means 11 such as a joystick, and the scale display angle is changed by operating the scale angle operating means 12 such as a rotary switch. , Align the scale with the part of the imaged object where you want to measure the length. Since the scale scale at this time changes in association with the display magnification, it is not necessary to adjust the scale scale even if the display scale is changed midway.

Next, the main signal flow in the above case will be described. First, the image that has passed through the objective unit 1 is the CCD camera unit 2
Then, the image is formed on the CCD and converted into a video signal. This signal is converted from an analog signal to a digital signal by the A / D conversion unit 3 and input to the image memory of the still image memory unit 4. Here, the still image memory unit 4 is controlled by the microcomputer unit 8 in accordance with a signal from the still image operating means 12 using a push switch or the like.

When the through display is performed, the signals input to the image memory of the still image memory unit 4 are read at the same time and sent to the D / A converter unit 5 to be converted into analog signals again. When displaying a still image, the signal input to the image memory of the still image memory unit 4 is repeatedly read out and sent to the D / A conversion unit 56 to be converted into an analog signal. The signal converted into the analog signal by the D / A conversion unit 5 is combined with the image of the scale by the image combining unit 6 and output as a video signal, which is displayed on the television monitor 13.

Next, the creation of a scale image will be described. First, the image pickup magnification of the objective section 1 is detected by the display magnification detecting means 7 and sent to the microcomputer section 8. This signal determines the scale minimum scale width and the minimum unit scale display length.

The minimum scale width is such that if the total number of scales at the minimum display magnification is n, the minimum scale width will be close to the total number of scales n even if the magnification is high, and the minimum scale width is sensuous. Configure the scale with values that are easy to understand. When the length displayed on the television monitor is expressed as X, the expression is X ≈ n × a × 10 ^b a = an easily understandable value Example 1, 0.5, 0.25, etc. b = integer.

Assuming that the display length of the smallest graduation unit is L ₁ and the display length of the next smallest object after L ₁ is L ₂ , the display length of the same display length is always L _2. , L ₂ = k × L ₁ (k <1, example k = 4/5, 3/4). In general, L _n = k × L _n−1 (k <1, n = 2, 3, ...). Therefore, as the magnification increases, the display length of the minimum scale unit is shortened and displayed.

The relationship between the display magnification, the minimum scale width of the scale, and the display length of the minimum unit scale exists in advance as data in the program of the microcomputer unit 8.

Regarding the display position of the scale, the direction detection data detected by the scale position operating means 11 such as a joystick is input to the microcomputer unit 8, and 360 ° is set to 8 in correspondence with the direction operated by the microcomputer unit 8. Split (45
The unit is divided into 9 stages including the neutral state (state in which the scale is not moved).

When a detection other than the neutral state is made here, the video RAM unit 9 corresponding to the image for one screen is added by the displacement amount corresponding to the operated direction on the scale display coordinates before movement in the microcomputer unit. The scale data is written in, and the image synthesis unit 6 synthesizes the image of the imaged object and the scale image,
Display on the TV monitor 13.

Since the displacement amount is adjusted so as to increase in proportion to the square of the time during which the microcomputer unit 8 continuously detects the direction in a fixed direction, the displacement amount is adjusted from the case where the scale movement amount is small to the case where it is large. Can be moved in a short time.

Regarding the display angle of the scale, the angle detection data detected by the scale angle operating means 10 is input to the microcomputer unit 8, and the microcomputer unit 8 divides one round into 360 steps (1 ° unit). Based on this data, the microcomputer unit 8 calculates the coordinates after the rotational movement from the scale display coordinates before the angular movement, writes the scale data in the video RAM unit 9, and performs the same operation as the movement of the scale display position. .

By the method described above, the display position and the display angle of the scale can be arbitrarily moved. FIG. 2 shows an example of this scale display, and FIG. 3 shows an example in which the minimum scale width of the scale and the length of the minimum scale unit display are changed according to the display magnification.

[0027]

Since the microscope of the present invention is configured as described above, the invention according to claim 1 can easily measure the scale by adjusting the scale to the imaged object without moving the positions of the imaged object and the lens. Has the effect that can. In addition, claim 2
In addition to the effect of the invention described in claim 1, the described invention has an effect that the scale can be easily measured according to the portion of the imaged object to be measured without changing the angle of the imaged object.

In addition to the effect of the invention according to claim 2, the invention according to claim 3 can easily measure the length because the minimum scale width is displayed in an optimum size regardless of the display magnification. There is an effect that can be done. Further, in addition to the effect of the invention according to claim 4, the invention according to claim 4 can be distinguished from others because the display length of the minimum unit scale is displayed successively shorter as the display magnification increases. It has an effect that the length can be easily and easily measured. In addition to the effect of the invention described in claim 4, the invention described in claim 5 has an effect that even a moving object that disappears immediately from the visual field can be stopped and the length can be measured.

[Brief description of drawings]

FIG. 1 is a block diagram showing an embodiment of a microscope of the present invention.

FIG. 2 is an explanatory diagram of a scale display of an embodiment of the microscope of the present invention.

FIG. 3 is an explanatory diagram of changes according to display magnification in an embodiment of the microscope of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 camera section 2 image processing section 3 A / D conversion section 4 still image memory section 5 D / A conversion section 6 image composition section 7 display magnification detection means 8 microcomputer 9 video RAM section 10 scale angle operation means 11 scale position operation means 12 Still image operating means 13 TV monitor 14 Imaging object 15 Scale display

Claims (5)

[Claims] 1. A video processing circuit for outputting an image through a lens as a video signal at a constant distance from an imaged object, and a scale for measuring the size of the imaged object. A microscope having a display means for displaying the image on the imaged object is provided with a variable means for detecting the direction of the scale displayed on the display means and arbitrarily changing the position of the scale display according to the signal. Characteristic microscope. 2. The microscope according to claim 1, further comprising a varying means for varying a display angle of the scale by means of a scale angle operating means for detecting the angle and in accordance with the signal. scope. 3. The microscope according to claim 1 or 2, further comprising a changing means for automatically changing the minimum scale width of the scale according to the display magnification in accordance with a signal from the display magnification detecting means from the objective section. Microscope characterized by becoming. 4. The microscope according to claim 3, further comprising display means for sequentially displaying the displayed length of the minimum unit scale of the scale as the display magnification increases. scope. 5. The microscope according to claim 4, further comprising means for arbitrarily stopping a display image.