KR20110130889A - Eyeball position finding apparatus of optometer - Google Patents

Abstract

PURPOSE: An apparatus for checking an eyeball position in an optometer is provided to place an eyeball in the center of a measurement screen in a fast time. CONSTITUTION: A camera(50) sets a wide angle lens(51) in the head of an optometer(10). The camera takes a photograph of the face of a person whose eye is tested(1). A measurement screen, which is taken in the optical system of the optometer, is displayed on the monitor of the optometer as a main screen. The face screen taken with the camera is displayed on one side of the main screen in a PIP(Picture In Picture) screen. The capturing range of the measurement screen taken with the optical system is displayed at the PIP screen as a square cursor.

Description

Eyeball position finding apparatus of optometer

According to the present invention, an ophthalmic device for automatically measuring a variety of visual acuity information such as refractive power, astigmatism, and astigmatism axis of an eyeball, and an eyeball position checking device for moving the optometrist so that the eyeball is positioned at the center of the measurement screen in a short time It is about.

Existing optometrist is fixed to the bib (11) as shown in Figure 1 in the state of stopping the movement of the eye, the optometrist 10 to operate the photodetector inside to shoot the eye of the subject (1) However, since the size of the face and the position of the eyeball are different for each person, and the height and distance of the eyepiece 10 are changed, the eye of the subject 1 can be positioned in front of the lens of the eyepiece 10 ( After adjusting the position of the eyepiece 10 and the position of the bib 11 so that the eyeball is located in the center of the measurement screen, the lens is moved in front of one eye of the eyepiece 1.

That is, the optometrist 10 photographs an image of the front of the lens with an internal photodetector, and then moves the optometry 10 before, after, left, right, up, and down to allow the eye to exist on the photographed screen, and then one eye. By moving the optometrist 10 in front of the to obtain the vision information for one eye, and to take another eye again to obtain the vision information.

Conventionally, when the face of the subject (1) with the optometrist (10) is close or too far away from the measurement screen to see which position is being taken in relation to the state, the front and rear of the optometry (10) In order to move to the left, right, up and down, the optometrist turns his head on the screen and visually checks the distance between the optometrist 10 and the subject 1 and moves the optometrist 10 with a joystick, etc. Grab it to let the shoot take place.

Therefore, the eyepiece 10 cannot be moved using only the photographed image of the eyepiece, and the eyepiece 10 is moved so that both eyes exist after manually checking the distance between the eyepiece 10 and the subject. Because it should be, the optometry takes a long time while the optometry task was not easy.

That is, the existing optometrist 10 cannot determine the distance between the optometrist 10 and the examinee 1 only by using the measurement screen, and thus, there is a problem in that the optometrist 10 cannot be moved back and forth. ) And the distance between the subject (1) and the eyepiece 10 should be moved back and forth.

The present invention is to solve the problem of not being able to photograph the eye by looking at the screen taken by the optometrist, the distance between the optometrist and the subject, the measurement screen taken by the optometrist is a screen that only photographs the part of the subject It's often hard to see. In this case, the optometrist is to solve the problem of moving the optometrist after checking the distance of the optometrist subject by turning the face toward the side of the optometrist so that the eyeball is located in front of the lens of the optometrist.

The present invention allows to obtain the vision information by moving the optometry to the optimal shooting position even when looking at the measurement screen displayed on the optometry, it is possible to obtain the vision information with the optometrist in a short time.

The present invention provides a camera for photographing the eye of the subject with a wide-angle lens in addition to the basic photodetector for photographing the eye in the optometrist, and on one side of the measurement screen photographed with the photodetector of the optometrist The face image is displayed as a picture in picture (PIP), but the position of the measurement screen currently photographed by the photodetector is displayed on the PIP screen in the form of a square cursor.

The present invention prepares a measurement screen photographed with a photodetector through a lens of an optometrist and a face screen of an examinee photographed using a wide-angle lens, and then PIPs the facial screen of the examinee in a state in which a measurement screen photographed with a photodetector is displayed. By displaying the PIP and the face screen displayed on the PIP, the area where the measurement screen is photographed is indicated by a square cursor, so that the optometrist can see the screen and check the position where the optometrist is photographed. To lose.

In the present invention, when displaying the measurement screen taken by the lens in the optometrist, the screen showing the face of the subject on the one side of the measurement screen is displayed in PIP, but the position where the measurement screen is photographed on the PIP screen is displayed with a square cursor In this way, the examinee can check the position where the measurement screen is photographed by looking at the PIP screen so that the measurement of the visual acuity information is made by moving to the front of the eye to measure the lens of the optometrist in a short time.

The present invention can be obtained by looking at the PIP screen of the measurement screen where the lens of the optometrist is photographed, there is an effect that can obtain the vision information by moving the optometrist in a short time.

1 is a side view of the use state of the existing optometry
2 is an internal configuration diagram of an existing optometry
3 is a block diagram of an optometry of the present invention
4 is an explanatory diagram of an embodiment before eye measurement of the present invention
5 is an explanatory view of an eye measurement state example of the present invention.
6 is a flowchart of an embodiment of the present invention.

The present invention is to move the optical system 20 for photographing the eye with the lens in the optometry 10 to the X, Y, Z axis direction to focus by the drive device 30, a wide angle to the head of the optometrist 10 The camera 50 for capturing the entire face of the subject 1 using the lens 51 is installed, and the measurement screen 2 photographed by the optical system 20 is displayed on a monitor which is viewed in front of the subject. The whole face screen is displayed on the PIP screen 3 on one side of the measurement screen 2, and the range where the measurement screen 2 is photographed is displayed by the square cursor 5 on the PIP screen 3, The optometrist can see the monitor of the optometrist 10 and quickly move the optometrist 10 to an optimal measurement position.

In the present invention, the driving device 30 for moving the optical system 20 in the three-axis direction is to move in the X, Y, and Z-axis directions by using a step motor, and recognizes an input such as a joystick normally operated by an optometrist and steps By adjusting the driving direction and the driving amount of the motor to move the optical system 20 to the optimum position, such a drive device 30 is a known structure built into the optometrist 10.

That is, the optometrist acquires vision information about the eye of the examinee 1 by driving the step motor of the driving device 30 using a joystick so that the lens of the optometrist 10 can be positioned at a desired position. Do it.

Then, by using a joystick or the like to drive the optometrist 10, a step motor for driving the bib 11 supporting the jaw of the subject 1 is controlled, and according to the size of the face of the subject 1 11) to the proper position.

The optical system 20 installed above the driving device 30 transmits the visible light image emitted from the lamp to the eye to fix the eye, and then irradiates the measuring light source to the eye to split the reflected light into a light split mirror. In order to detect visual acuity information by passing through a lens and through an aperture to the photodetector, the optical system 20 photographs an eye to be measured, and the internal structure and function of such optical system 20 are well known. .

That is, the optical system 20 of the present invention is to photograph the eye of the subject 1 placed in front of the lens of the optometrist 10, the measurement screen (2) taken by the optical system 20 is directed toward the optometrist As shown in the monitor installed in the optometry 10, the structure and function of the measurement screen 2 taken by the optical system 20 is displayed on the monitor of the optometrist 10 is a known fact.

According to the present invention, the camera 50 is installed on the head of the optometrist 10, but the wide angle lens 51 is installed in front of the camera 50 so that the entire face of the subject 1 can be photographed by the camera 50. To help.

That is, the face of the subject 1 supported by the bib 11 is to be photographed using the camera 50 adopting the wide-angle lens 51, and the screen thus photographed is photographed through the optical system 20. The PIP screen 3 is displayed on one side of the measurement screen 2.

According to the present invention, when the entire screen of the subject 1 is obtained from the camera 50 using the wide-angle lens 51, both eyes of the subject 1 are present on the screen photographed by the camera 50. Determine the value, and drive the drive device 30 of the optometrist 10 so that both eyes of the subject 1 is present on the screen taken by the camera 50, the center of the screen taken by the camera 50 The dog's eyes are present.

That is, when the eyepiece 10 is driven to measure the visual acuity information, and the eyepiece 1 supports the jaw on the bib 11, after photographing the eyepiece 1 using the camera 50, the camera The photographing is performed by using the driving device 30 of the optometrist 10 so that both eyes of the subject 1 may exist on the screen photographed by 50.

Here, in order to determine whether both eyes exist on the screen photographed by the camera 50, a known algorithm uses an eye recognition algorithm, and drives both eyeballs on the screen photographed by the camera 50 by driving the eye recognition algorithm. The driving device 30 is driven to exist.

The reason why both eyes are photographed by using the eye recognition algorithm as described above is that both eyes are not photographed according to the shape and size of the subject 1 and the position supported by the bib 11, or one side is completely twisted. Because.

Therefore, at the beginning of the measurement, the position of the optometrist 10 is moved so that both eyes exist on the screen photographed by the camera 50, and when both eyes exist on the screen photographed by the camera 50 as described above, the optical system 20 ) Is initially photographed on a specific portion of the screen captured by the camera 50, the photographed position of the optical system 20 is displayed as a square cursor (5) on the entire face screen.

That is, when both eyes are present on the screen shot by the camera 50, the eye is in a normal measuring state. When both eyes are detected by the camera 50 as described above, the camera 50 and the optical system 20 Due to the structural design, a certain position of the photographing screen of the camera 50 is photographed by the optical system 20, and the position photographed by the optical system 20 is displayed using the square cursor 5.

In the present invention, the measurement screen (2) taken by the optical system 20 is displayed on the monitor of the optometry 10 as a main screen, and the screen shot by the camera 50 as a sub-screen on one side of the main screen, The PIP screen 3 is displayed, and the position photographed by the optical system 20 is displayed by the square cursor 5 on the screen photographed by the camera 50.

That is, according to the present invention, when the eyesight measurement is performed by the optometrist 10, the measurement screen 2 photographed by the optical system 20 is displayed as a main screen on the monitor, and the camera 50 is displayed as a sub-screen on one side of the main screen. The photographed screen is displayed as a PIP screen (3), but the sub-screen is displayed by the square cursor (5) the range in which the main screen is photographed, so that the optometrist who sees the monitor can see only the monitor, It is possible to quickly move the optometry 10 to the front of the eye by checking which part of the measurement screen (2) is photographed.

When the optometrist 10 moves to the eyeball, it moves to the square cursor 5 of the sub-screen to check which part is being photographed, and after the eyeball is accurately photographed on the main screen of the optometrist 10, an automatic pupil tracking algorithm is performed. It is possible to obtain the vision information about the pupil.

According to the present invention, the PIP screen 3 is displayed on one side of the measurement screen 2 taken by the optical system 20 on the screen of the entire face of the subject 1, but the optical system 20 is displayed on the PIP screen 3. By using the rectangular cursor (5) to display the range to be photographed, the optometrist can move the optometrist 10 to the optimum measurement position quickly even if only looking at the monitor.

1: subject 2: measurement screen
3: PIP screen 5: square cursor
10: optometry 11: bib
20: optical system 30: driving device
50: camera 51: wide-angle lens

Claims (2)

In the eyeball position confirmation device of the optometrist to move the optical system 20 to the driving device 30 of the optometrist 10 to position the lens in front of the eyeball of the subject 1 to photograph the eyeball,
The camera 50 employing the wide-angle lens 51 is installed on the head of the optometrist 10 so that the entire face of the subject 1 supported by the bib 11 is photographed, and the optical system 20 of the optometrist 10 is photographed. The measurement screen (2) taken in the) is displayed as the main screen on the monitor of the optometry 10, the face screen taken by the camera 50 on one side of the main screen as a PIP screen (3), the PIP screen (3) an eyeball position confirming device of an optometrist, characterized in that the photographing range of the measurement screen (2) taken by the optical system (20) is indicated by a square cursor (5). According to claim 1, the screen shot by the camera 50 is applied to the eye recognition algorithm so that both eyes are photographed, the range of the screen shot by the optical system 20 is the step motor displacement of the drive device 30 An eye position checking device of an optometry, characterized by detecting and displaying.

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