JP5007435B2 - Vision test apparatus and vision test system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an apparatus for performing a visual acuity test and a visual acuity inspection system.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, a visual acuity inspection device that presents a visual target to a subject and inspects and measures the visual acuity of the subject based on the response is known. This visual acuity test apparatus shows a visual target having a predetermined visual acuity value to the subject, and if the determination of the visual target is correct (or if the correct answer satisfies a predetermined standard, such as 2 out of 3 correct answers). ), And then present the target with the next higher visual acuity value. If the discrimination of the next target is correct, the target with a higher visual acuity value is presented. In this way, the maximum visual acuity value of the visual target that can be discriminated by the subject is obtained (hereinafter, the visual acuity obtained by such visual examination is referred to as “normal visual acuity”).
[0003]
[Problems to be solved by the invention]
In the normal visual acuity test as described above, the subject often goes to the examination while keeping his eye condition in the most visible state, such as narrowing his eyes or increasing the number of blinks than usual. If an indicator with a visual acuity value of 1.5 was visible, the person's visual acuity was 1.5.
[0004]
However, normal visual acuity is the visual acuity at the moment when the condition of the surface of the eye is moistened and well-organized, and blinking is reduced when driving a car or concentrating on something. While you are not blinking, your eyes are dry and your vision is reduced. Thus, the visual acuity that the subject actually sees in daily life (visual acuity at a practical level: hereinafter referred to as “utility visual acuity”) may be different from the result of the normal visual acuity test described above. In particular, it is said that the difference between the normal visual acuity and the practical visual acuity obtained by the conventional visual acuity test is large in the case of undergoing refractive surgery for the eyes or in the case of a subject having dry eyes.
[0005]
In view of the above-described problems of the prior art, it is an object of the present invention to provide a visual acuity inspection device and a visual acuity inspection system that can easily inspect a subject's practical visual acuity.
[0006]
[Means for Solving the Problems]
In order to solve the above problems, the present invention is characterized by having the following configuration.
(1) It has an optotype presenting means for sequentially presenting a visual acuity test target to the subject, an input means for inputting the response of the subject, and a judging means for judging whether the input response is correct or not. In a visual acuity test apparatus for examining the visual acuity of a person, a mode for switching from a normal visual acuity test mode for measuring the normal visual acuity of the eye to a practical visual acuity test mode for measuring a change in visual acuity when the eye is kept open The switching means and a visual acuity value corresponding to the normal visual acuity value of the subject's eye are first presented and the examination is started, and when the subject's response does not meet the predetermined criteria, the visual acuity having a lower visual acuity value And a measurement result storage means for storing the measurement result in the practical visual acuity test mode together with the time axis.
(2) It has an optotype presenting means for sequentially presenting a visual acuity test target to the subject, an input means for inputting the subject's response, and a judging means for judging whether the inputted response is correct. In a visual acuity test apparatus for examining a person's visual acuity, mode switching means for switching to a practical visual acuity test mode for measuring a change in visual acuity when the eye is kept open, and a visual acuity corresponding to the normal visual acuity value of the eye The target is presented first, the test is started, and when the subject's response does not meet the prescribed criteria, a target presentation program that presents a target with a lower eyesight value, and opening of the eye to be examined Program termination means for ending the optotype presenting program when the state is detected and there is a blink, and measurement result storage means for storing the measurement result in the practical visual acuity test mode are provided.
(3) In the visual acuity test apparatus according to (2), the program end means has optical detection means for optically detecting the open state of the eye to be examined.
(4) The visual acuity test apparatus according to (1) and (2) has a time changing means for changing a predetermined presentation time of the presented visual target.
(5) The visual acuity test apparatus according to (1) and (2) is for changing the change stage of the visual acuity value to be reduced to one stage or a plurality of stages when the correct answer of the response to the presented target does not satisfy a predetermined standard. It has visual acuity value change stage changing means.
(6) a communication terminal having a presentation screen for presenting a target having a predetermined visual acuity value and a response means for responding to the subject to the presented target, and the communication terminal and the communication line network And a server in which a visual target presentation program for visual acuity measurement that changes the presentation of the visual target according to a response result to the presented visual target is recorded, and the server is accessed by the communication terminal. The target presentation program is executed, and the target is sequentially presented on the presentation screen to measure visual acuity.
(7) In the visual acuity test system according to (6), the visual target presentation program presents a visual target of the same visual acuity level when the correct answer of the response to the visual target satisfies a predetermined criterion, When the correct answer of the response does not satisfy a predetermined criterion, the method includes a step of presenting a visual target having a visual acuity level lower than the visual acuity value.
(8) In the visual acuity test system according to (7), the communication terminal has input means for inputting a distance between the presentation screen and the eye to be examined, and the optotype presenting program is based on the inputted distance. The method includes a step of determining the size of the target to be presented on the presentation screen.
(9) The visual acuity test system according to (8) uses a general-purpose personal computer or a mobile phone as the communication terminal.
[0007]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
<Example 1>
First, a case where the present invention is applied to a visual acuity inspection apparatus that is used by being placed at a predetermined distance from a subject as Example 1 will be described. FIG. 1 is an outline schematic diagram of the visual acuity test apparatus according to the first embodiment, and FIG. 2 is a diagram schematically illustrating an optical system and a control system of the visual acuity test apparatus.
Reference numeral 1 denotes an apparatus main body that presents a visual target. A window 2 made of a glass plate provided with an antireflection film is disposed in the upper front portion, and the subject views the visual target in the center through the window 2. The window 2 may be provided with a filter instead of a glass plate. The inside of the apparatus main body 1 is painted black so that the internal structure is difficult to see.
[0008]
Reference numeral 20 denotes a control box used by the examiner. Reference numeral 21 denotes an operation unit for performing various settings in switching of the presented visual target and visual acuity measurement (visual acuity test). Reference numeral 22 denotes a display unit for displaying the presented visual target and the result of the visual acuity test. The display unit 22 in the present embodiment is a liquid crystal touch panel, and has button functions for performing various settings in the visual acuity test and operations for starting the test in addition to the display of the presentation target and the test result. ing. Reference numeral 23 denotes an output unit including a printer, which can output a test result (measurement result) of the subject.
[0009]
By using this control box 20, it is possible to change the target to be presented in the apparatus main body 1 and various settings in the visual acuity test. A control signal from the control box 20 is received by the transmission / reception unit 3 provided on the apparatus main body 1 side by infrared communication, and a target is presented based on the control signal.
[0010]
Reference numeral 30 denotes a response box used by the subject. The response box 30 is provided with a joystick 31 for instructing the direction of the target (herein, Landolt ring) determined by the subject and a response button 32 used when the target cannot be determined. The response box 30 is connected to the control box 20 by the cable 4, and a response signal in the response box 30 is transmitted to the control box 20 through the cable 4. In the present embodiment, the connection between the control box 20 and the response box 30 is performed by the cable 4, but the present invention is not limited to this and may be performed by wireless communication such as infrared communication. Reference numeral 33 denotes a start button provided in the response box 30 for starting inspection (measurement).
[0011]
FIG. 2 is a diagram showing an outline of an optical system and a control system of the visual acuity test apparatus used in this embodiment.
Reference numeral 10 denotes an optotype presenting unit, which is disposed in the lower part of the apparatus main body 1. The optotype presenting unit 10 is a disc-shaped disc made of a glass plate, and a target disc plate on which a large number of visual acuity test targets such as a visual acuity target are formed by chromium vapor deposition or the like on the same circumference. , A mask plate for masking a part of the presented target, a target disk plate and a drive unit for rotationally driving the mask plate, an illumination lamp for illuminating the inspection target on the target disk plate, and other optics It consists of members.
[0012]
The target used in the present embodiment is the one having the viewing angle of the minimum separation threshold as a common logarithm (contrast visual acuity expressed by a geometric series: logarithm of the minimum angle of resolution: hereinafter referred to as LogMAR). ing. Here, the LogMAR target is used, but the present invention is not limited to this, and a target using a conventionally used visual acuity value may be used. The optotype presenting unit 10 rotates the optotype disc plate and the mask plate based on the signal received from the transmission / reception unit 3 so that a predetermined inspection target is positioned on the optical axis of the illumination lamp.
[0013]
Reference numeral 11 denotes a concave mirror which is attached to the upper surface inside the apparatus main body 1. A beam splitter 12 is placed between the optical path between the optotype presenting unit 10 and the concave mirror 11. In addition, the concave mirror 11 in this embodiment is configured so that the optical distance between the visual target and the eye to be examined is 5 m when the distance between the eye to be examined and the window 2 of the vision device main body 1 is 0.9 m. Its focal length is designed.
[0014]
The light beam of the inspection target illuminated by the illumination lamp of the target presentation unit 10 is directed upward, passes through the beam splitter 12 installed above, and is reflected by the concave mirror 11. The target luminous flux reflected by the concave mirror 11 is reflected by the beam splitter 12 and travels through the window 2 toward the eye to be examined.
[0015]
Reference numeral 24 denotes a control unit for performing various controls of the entire visual acuity test apparatus. The control unit 24 controls signals such as signals from the response unit 30, various operations on the control box 20, driving of the apparatus main body 1, etc., and can also measure measurement time, record measurement contents, and the like. Reference numeral 25 denotes a transmission / reception unit for transmitting a control signal from the control box 20 to the apparatus main body 1 and receiving a signal from the apparatus main body 1 side.
[0016]
The operation of the visual acuity testing apparatus having the above-described configuration will be described using the flowchart of FIG. 3 and the diagrams showing the operation screens of the display unit 22 of FIGS.
The examiner first performs the conventional visual acuity measurement (visual acuity test) to obtain the normal visual acuity of the subject. The examiner uses the operation unit 21 and the display unit 22 of the control box 20 to input the name, sex, age, data number, etc. of the subject in advance. Next, the examiner selects the normal visual acuity measurement eye by pressing each display field (R, both eyes, L) of the normal visual acuity display frame 40 displayed on the display unit 22 of the control box 20. After selecting the measurement eye, pressing the start button 41 executes the visual acuity presentation program for normal visual acuity.
[0017]
When the start button 41 is pressed, the control unit 24 has a predetermined visual acuity value (visual acuity value 0.5 at the start) using the visual target presentation unit 10 according to the set visual acuity presentation program for normal visual acuity. The Landolt ring is presented in the apparatus main body 1. The shape (the direction of the break) of the presented visual target is displayed in the visual target display field 42 of the display unit 22.
[0018]
The subject inputs the cut direction of the target (Landolt ring) presented in the apparatus main body 1 with the joystick 31 of the response box 30. When the cut direction of the visual target is not known, the response button 32 is used to notify the control unit 24 that it cannot be determined. When the control unit 24 receives a response from the subject, the control unit 24 determines whether the response to the presented visual target is correct or incorrect. If the response is correct, the visual target having the next higher visual acuity value is presented. Thereafter, an optotype having a visual acuity value that is one step higher is presented until there is an incorrect answer. If there is an incorrect answer to the initial target, the target having a visual acuity value that is one step lower is presented. Thereafter, until the correct answer is received (or until the minimum visual acuity value is reached), a visual target with a visual acuity value that is one step lower is presented. When there is an incorrect answer in the middle of raising the visual acuity value, or when there is a correct answer in the middle of lowering the visual acuity value, a visual target in a different direction with the same visual acuity value is presented. If there are two correct answers (two of three correct answers) for a target with the same visual acuity value, it is determined that the visual acuity value is obtained. If there are two wrong answers (two out of three) for the target with the same visual acuity value, it is determined that the visual acuity is less than the visual acuity value. Thus, the visual target is sequentially presented, and the highest visual acuity that the subject can discriminate is measured as the normal visual acuity.
[0019]
When the normal visual acuity measurement is completed, the practical visual acuity is then measured. The control unit 24 switches the display on the display unit 22 to a display for practical eyesight measurement (see FIG. 5A). At this time, the visual acuity value obtained by the normal visual acuity measurement is displayed in the display column of the normal visual acuity display frame 40. In practical visual acuity measurement, visual acuity is measured without blinking. The examiner informs the subject that the measurement is finished when the subject blinks, and instructs the subject not to blink as much as possible during the measurement.
[0020]
The examiner selects a measurement eye for practical visual acuity by pressing each display field (R, both eyes, L) of the display frame 43 for practical visual acuity (here, the right eye is selected). The control unit 24 inverts the display state of the selected display field and emphasizes the selection location (selected eye). The examiner presses the start button 41 (or the start button 33) to start a visual target presentation program for measuring practical visual acuity.
[0021]
When the start button 41 is pressed, the control unit 24 uses the visual target presenting unit 10 to measure a visual target having a visual acuity value obtained by the normal visual acuity measurement (here, the normal visual acuity value is 1.25). Is presented in the apparatus main body 1 as a presentation target. At the same time, the control unit 24 displays the normal visual acuity value of the selected eye in the practical visual acuity display frame 43 of the display unit 22. Note that the visual target presented in the apparatus main body 1 is displayed in the visual target display field 42 of the display unit 22 as in the case of normal visual acuity measurement. When the start button 41 is pressed, the control unit 24 turns off the start button 41 displayed on the display unit 22 and displays an end button 44 on the display unit 22 instead (see FIG. 5B).
[0022]
The subject looks at the visual target presented in the apparatus body 1 and inputs the direction of the cut with the joystick 31. If the target cannot be determined, the response button 32 is used. When the correct answer is input, the control unit 24 controls the visual target presenting unit 10 so as to present the visual target by randomly switching the cut direction of the visual target without changing the visual acuity value. When an incorrect answer is input, the control unit 24 controls the visual target presenting unit 10 so that the visual acuity value is deteriorated by one step (lower), and the visual target is presented by switching the cut direction of the visual target at random.
[0023]
In addition, even when there is no response from the subject within a predetermined time (in this case, 2 seconds) after the target is presented, the control unit 24 determines that the target is one step lower in visual acuity value. Control is performed so as to be presented in the apparatus main body 1. While the correct answer continues, the control unit 24 performs control so that the visual target having the same visual acuity value is presented at random. Furthermore, the control unit 24 measures the time required for the response to the visual acuity value of the presented target and stores it in the memory in the control unit 22.
In addition, the control unit 24 displays the visual acuity value of the presented visual target on the display frame 43, and sequentially displays the measurement time from the start of practical visual acuity measurement in the measurement time column of the display frame 43.
[0024]
The examiner presses the end button 44 of the display unit 22 when the subject blinks. When the end button 44 is pressed, the control unit 24 ends the measurement of the practical visual acuity, displays that the measurement is completed on the display unit 22, and displays the result of the practical visual acuity value of the eye to be examined on the display frame 43. Further, the control unit 24 performs control so that only the measurement for a maximum of 60 seconds is performed even if the subject does not blink. In the present embodiment, the measurement time is 60 seconds at the longest, but the measurement time is not limited to this and may be any measurement time sufficient for practical visual acuity measurement. In addition, the measurement time may not be determined in order to end the measurement, but the measurement may be ended based on the number of times the presentation target is presented or the number of consecutive correct answers.
[0025]
In the above description, when the response of the subject is an incorrect answer, the visual acuity value is always switched to one step lower. However, as in the normal visual acuity measurement, when a correct answer satisfying a predetermined standard cannot be obtained (3 If a majority of correct answers such as 2 out of the individual cannot be obtained), the visual acuity value is less than that. If a predetermined standard correct answer (more than a majority of correct answers) is obtained, the same visual acuity value is assumed as having the visual acuity value. You may make it present continuously.
[0026]
Also, the examiner may input the response of the subject. Further, the examiner may determine whether the response of the oral response of the subject is correct, and may input the correct / incorrect determination result.
[0027]
When the measurement result is desired to be output after the practical visual acuity measurement is completed, the measurement result is output from the output unit 23 using the operation unit 21 of the control box 20. FIG. 6 is a diagram showing an outline of the print contents output from the output unit 23.
[0028]
Reference numeral 50 denotes a printing paper that is output from the output unit 23 and has a measurement result printed thereon. Reference numeral 51 denotes a subject data display column printed on the upper portion of the printing paper 50, on which subject data (name, age, sex, etc.) inputted in advance are printed. Reference numeral 52 denotes a display field for a normal visual acuity value (Normal.VA). Below the display column 52, the result of practical visual acuity (Utility.VA) with the same measurement eye as the measurement eye in the display column 52 is printed. Here, the display column 53 is printed with the time (seconds) from the start of measurement until each target is presented. In the display column 54, the visual acuity value of the presented visual acuity at the time indicated in the display column 53 is printed, and in the display column 55, the time from when the visual target is presented until the answer is input is printed.
[0029]
Here, the visual acuity value printed in the display column 54 is printed with left justification at the start of measurement, but is shifted to the right as the visual acuity value becomes lower (becomes worse). As a result, it is possible to grasp the change in the visual acuity value with time.
[0030]
As described above, in this embodiment, when the practical visual acuity is obtained, the visual acuity value obtained with the normal visual acuity is used as a starting point, and the visual acuity value is lowered by one step when there is an error or no response within a predetermined time. However, the change stage of the visual acuity value may be changed according to the response content of the subject. In this case, by using the setting button 45 of the display unit 22, the mode setting list screen can be called and the change stage of the visual acuity value can be selected in the visual acuity value change amount setting column 46 (see FIG. 7).
[0031]
For example, if the visual acuity value of the target to be presented is not always set in time for the subject's visual acuity to be lowered, it is not a setting that lowers the visual acuity value by one step, but skips one step and lowers the visual acuity value A setting may be made to present a visual acuity value that is two steps lower than the visual acuity value presented. Also, instead of setting the amount of change in the visual acuity value in advance, when the erroneous answer is continued twice or more during the practical visual acuity measurement, the control unit 24 presents the next visual acuity value lower by two or more levels. You may do it.
[0032]
Moreover, although the response waiting time of the response with respect to a presentation target is made into 2 second, it is not restricted to this, A reaction waiting time can also be selected on a mode setting list screen. In this case, the reaction waiting time can be selected from 1 second and 2 seconds in the reaction waiting time setting column 47 shown in FIG.
[0033]
Furthermore, in this embodiment, the normal visual acuity measurement is followed by the practical visual acuity measurement, but this is not restrictive. If the normal visual acuity value of the subject is known in advance, the value is input. By doing so, it is possible to perform practical visual acuity measurement without obtaining a normal visual acuity measurement. In such a case, the visual target having the input visual acuity value may be used as the first presentation visual target for practical visual acuity measurement.
[0034]
In the above embodiments, the visual acuity test placed at a predetermined distance from the subject is used. However, the present invention is not limited to this, and the subject looks into the visual target presented inside the apparatus main body. It can also be applied to a type of visual acuity testing device that is used in a complicated manner. The case where the present invention is applied to a peeping type visual acuity inspection device will be described below as a second embodiment.
[0035]
<Example 2>
FIG. 8 is a diagram showing an outline of an optical system, a control system, and the like in a peeping type eyesight inspection apparatus.
Reference numeral 100 denotes an apparatus main body. Reference numeral 101 denotes an objective lens, which allows the subject to see a part of the target disc plate 102 installed inside the housing through the objective lens 101. The target disc plate 102 is a disk-shaped disc made of a glass plate, and a large number of visual acuity test targets such as a visual acuity target are formed on the same circumference by chromium vapor deposition or the like. Reference numeral 103 denotes an illumination lamp that illuminates a part of the optotype disc plate 102 from the back side, and the subject can see the optotype illuminated by the illumination lamp 103. Reference numeral 104 denotes a motor for rotating the target disc plate 102, and 105 denotes a cylindrical shielding wall that is placed between the objective lens 101 and the target disc plate 102 and blocks ambient light.
[0036]
Reference numeral 106 denotes an LED that emits infrared light. The infrared light beam from the LED 106 is bent upward by the half mirror 107. The infrared light beam bent upward is made coaxial with the light beam of the illumination lamp 103 by the beam splitter 108 placed between the objective lens 101 and the target disk plate 102. The infrared light beam that is coaxial with the light beam of the illumination lamp 103 passes through the objective lens 101 to illuminate the eye E, and forms a corneal reflection image bright spot on the cornea of the LED 106. The beam splitter 108 is one that reflects infrared light and transmits visible light.
[0037]
The infrared light beam reflected on the cornea of the eye E is reflected by the beam splitter 108 through the objective lens 101. The infrared light beam reflected by the beam splitter 108 is received by the light receiving element 110 after obtaining the half mirror 107 and the condenser lens 109. As shown in FIG. 9A, the light receiving element 110 is composed of four divided elements, and each element is separated with a constant width. Since the corneal reflection image bright spot is small, the reflected light does not enter across a plurality of elements.
[0038]
In addition, a response button 120, a joystick 121, and a start / end button 122 that are used when the target cannot be identified are provided in the lower part of the external appearance of the apparatus main body 100, and the subject uses these response means to perform an examination. receive. A control unit 130 controls the entire apparatus, and is connected to a motor 104, a light receiving element 110, a response button 120, a joystick 121, a start / end button 122, a display unit 131, and the like. The display unit 131 is a liquid crystal touch panel similar to the display unit 22 shown in the first embodiment, and can display measurement results and perform various settings.
[0039]
The subject or the examiner presses the start / end switch 122 to start normal visual acuity measurement. The subject looks inside the apparatus main body 1 and responds with the joystick 121 to the direction of the cut of the visual target presented inside. When the cut direction of the target is not known, the response button 120 is pressed. The control unit 130 drives the motor 104 based on signals from the joystick 121 and the response button 120 to rotate the target disc plate 102, and presents the next target to the subject. By performing such a process a plurality of times, after the normal visual acuity value is obtained, the start / end button 122 is pressed again to move to the practical visual acuity measurement program.
[0040]
When the second signal from the start / end button 122 is sent, the control unit 130 uses the visual target having the visual acuity value of the subject obtained by the normal visual acuity measurement as the first presentation visual target in the practical visual acuity measurement. Have the subject present. At the same time, the amount of light received by the light receiving element 110 at the start of the practical visual acuity test (the amount of light reflected from the cornea) is stored. The control unit 130 measures the practical visual acuity based on the flowchart of FIG.
[0041]
When the subject blinks during the practical visual acuity test, the reflected light beam of the infrared light hitting the eyelid enters the light receiving element 110. At this time, in the light receiving element 110, as shown in FIG. 9B, the reflected light is incident on substantially the entire area of the four-divided element. As a result, a signal different from the signal when the subject is opening his / her eyes is sent from the light receiving element 110 to the control unit 130. The control unit 130 detects that the subject's eyelid is closed based on a change in the signal from the light receiving element 110, and ends the examination of the practical visual acuity. The control unit 130 displays the result on the display unit 131 as the visual acuity value of the subject in practical visual acuity as the visual acuity value of the final presented visual target.
[0042]
<Example 3>
In the above embodiment, a device dedicated to visual acuity measurement is used, but this is not a limitation. A case where a general-purpose personal computer (hereinafter referred to as PC) is used as Example 3 will be described below. FIG. 10 is a diagram showing the configuration of a visual acuity inspection system using a general-purpose PC.
Reference numeral 200 denotes a general-purpose PC. The PC 200 includes a main body 201 in which a hard disk for storing data, a CPU, a communication unit for connecting to the Internet, and the like, a keyboard 202, a mouse 203, a display 204, and the like are stored.
[0043]
A server 210 stores an execution program for measuring normal visual acuity and practical visual acuity, and also plays a role as a provider (base station). Reference numeral 220 denotes a communication line network, which uses the Internet in this embodiment. The subject uses the PC 200 to access the home page set up by the server 210 and displays the home page set up by the server 210 on the display 204 of the PC 200. On the homepage, an execution button for executing a program for measuring visual acuity is prepared, and the subject moves the cursor to this execution button with a mouse or the like and clicks.
[0044]
When the execution button is pressed, the server 210 activates a stored execution program for performing visual acuity measurement, displays a window 205 for various settings on the display 204, and displays the subject by voice guidance or screen display. The operation procedure is instructed (see FIG. 11). The window 205 has a display size (15 inches, 17 inches, 19 inches), resolution (640 × 480, 800 × 600, 1024 × 768), distance between the subject and the display (50 cm, 1 m, 2 m, 3 m) , 5m) is provided, and the subject can make various settings by clicking the radio button displayed here. The subject makes various selections in the window 205 and then clicks an OK button displayed in the window 205.
[0045]
When the OK button is pressed, the server 210 presents the corresponding target on the display 204 based on the information selected in the window 205, and starts normal eyesight measurement. The subject determines the cut direction of the presented visual target using the up / down / left / right arrow keys provided on the keyboard 202 and transmits the response to the server 210. The server 210 sequentially presents various visual targets to the subject according to the normal visual acuity measurement program similar to the previous example according to the response content from the subject, and measures the visual acuity value of the subject. . When the normal visual acuity value of the subject is determined, the server 210 displays the fact on the display 204 and ends the normal visual acuity measurement.
[0046]
Next, the subject presses the “Enter” key of the keyboard 202 according to the voice guide or the screen display, and moves to the measurement of practical visual acuity. When the “Enter” key is pressed, the server 210 causes the display 204 to display the visual target having the visual acuity value of the subject obtained by the normal visual acuity measurement as the first presentation visual target for the practical visual acuity measurement. The subject responds with the up / down / left / right arrow keys in the same manner as the normal visual acuity measurement.
[0047]
Practical visual acuity measurement is also performed based on the practical visual acuity measurement program shown in the flowchart of FIG. When the subject blinks, the subject presses the space key on the keyboard 202 by the subject himself / herself. When the space key is pressed, the server 210 ends the execution program for the practical visual acuity measurement, and displays the visual acuity value of the final presented visual target as the practical visual acuity of the subject on the display.
[0048]
As described above, practical visual acuity measurement can be easily performed without using a device dedicated to visual acuity measurement. Further, when the display 204 and the subject are used at a distance of 3 m, 5 m, etc., the keyboard operation may be performed by wireless communication such as infrared communication.
[0049]
In this embodiment, the eyesight measurement (eyesight inspection) program is executed on the server 210. However, the present invention is not limited to this. The eyesight inspection program is downloaded from the server 210 to the PC 200, and the server 210 It is also possible to perform visual acuity measurement using only the PC 200 without using.
[0050]
In addition to using a general-purpose PC, it is also possible to measure practical visual acuity using a communication terminal having an Internet connection function. FIG. 12 is a diagram showing a schematic appearance of a mobile phone having an Internet connection function.
[0051]
Reference numeral 300 denotes a mobile phone. The subject uses a mobile phone to connect to the Internet, and downloads a practical eyesight inspection program from the server 210 shown in FIG. The subject holds the cellular phone, holds the cellular phone screen 301 in a position where the arm is fully extended, and measures the distance from the eye to the screen 301 with a measure or the like.
[0052]
The subject executes the downloaded program for practical eyesight measurement, and inputs the distance from the eye to the mobile phone 300 measured in advance on the setting screen and the eyesight value of the subject, such as a telephone number. Input is performed using the button group 302 to be used at the time. A control unit composed of a CPU or the like built in the mobile phone 300 calculates a target of the size of the Landolt ring corresponding to the distance input by the button group 302 based on a practical eyesight measurement program. 301 is displayed.
[0053]
The subject holds the mobile phone 300 with his arms extended, and uses the button 303 on the mobile phone 300 to start practical visual acuity measurement. The target is discriminated by a cross key 304 provided on the mobile phone 300. The practical visual acuity measurement procedure is performed based on the flowchart of FIG. When the subject blinks, the subject himself / herself presses the button 305 provided on the mobile phone 300 to end the practical visual acuity measurement.
[0054]
When the measurement is completed, the control unit inside the mobile phone 300 displays the measurement date and time, the measurement result, the measurement distance, and the like on the screen 301 according to the program. In addition, the subject presses the button 305 and transmits the result to the server 310. The server 310 stores the data sent together with the subject's email address in the server 310. The data of the visual acuity value stored in this way is connected to the Internet later using a mobile phone or the like, accessed on the homepage launched by the server 310, and the past change in visual acuity values as a numerical value or a graph or the like It is possible to see in.
[0055]
In the embodiment using a mobile phone, only a practical eyesight meter is measured. However, a normal eyesight test may be performed as in the other embodiments.
[0056]
【Effect of the invention】
As described above, according to the present invention, the practical visual acuity value of the subject in the time from the start of measurement to the blinking can be easily measured. In addition, by using a communication line such as the Internet, practical visual acuity measurement can be easily performed with a general-purpose personal computer or mobile phone.
[Brief description of the drawings]
FIG. 1 is a diagram showing a configuration of a visual acuity test apparatus used in the present embodiment.
FIG. 2 is a schematic diagram showing an optical system and a control system of the visual acuity inspection apparatus.
FIG. 3 is a flowchart showing a procedure for a visual acuity test.
FIG. 4 is a diagram showing an operation screen for performing a normal visual acuity test.
FIG. 5 is a diagram showing an operation screen for performing a practical eyesight test.
FIG. 6 is a diagram illustrating details of a printing result.
FIG. 7 is a diagram showing an operation screen for performing mode setting.
FIG. 8 is a view showing a peeping type visual acuity inspection apparatus to which the present invention is applied.
FIG. 9 is a diagram illustrating a configuration of a light receiving element.
FIG. 10 is a diagram illustrating the configuration of a visual acuity inspection system using a general-purpose personal computer.
FIG. 11 is a diagram showing a setting screen for performing a visual acuity test.
FIG. 12 is a diagram showing a functional configuration of a mobile phone to which the present invention is applied.
[Explanation of symbols]
1 Main unit
10 Target presentation part
11 Concave mirror
12 Beam splitter
20 Control box
21 Operation unit
22 Display section
23 Output section
24 Control unit
30 Response box
31 Joystick
32 Response button
33 Start button

Claims (5)

  A visual acuity presenting means for sequentially presenting a visual acuity test target to the subject; an input means for inputting a response of the subject; and a determination means for determining whether the input response is correct or not. A mode switching means for switching from a normal visual acuity test mode for measuring a normal visual acuity of a subject eye to a practical visual acuity test mode for measuring a change in visual acuity when the eye is kept open; First, the visual acuity value target corresponding to the normal visual acuity value of the eye to be examined is presented, and the examination is started. When the subject's response does not satisfy the predetermined standard, the visual acuity value with a lower visual acuity value is presented. A visual acuity inspection apparatus comprising: an optotype presenting program; and a measurement result storage means for storing a measurement result in a practical visual acuity inspection mode together with a time axis.   A visual acuity presenting means for sequentially presenting a visual acuity test target to the subject; an input means for inputting a response of the subject; and a determination means for determining whether the input response is correct or not. In a visual acuity test apparatus for examining a visual acuity, a mode switching means for switching to a practical visual acuity test mode for measuring a change in visual acuity when the eye is kept open, and a visual acuity value corresponding to the normal visual acuity value of the eye to be examined The target is presented first, the test is started, and when the subject's response does not meet the prescribed criteria, a target presentation program that presents a target with a lower visual acuity value and detection of the eye open state An eyesight inspection apparatus comprising: a program end means for ending the visual target presenting program when there is a blink, and a measurement result storage means for storing a measurement result in the practical eyesight inspection mode.   3. The visual acuity inspection apparatus according to claim 2, wherein the program end means has optical detection means for optically detecting an open state of the eye to be examined. The visual acuity inspection apparatus according to claim 1 or 2, further comprising time changing means for changing a predetermined presentation time of the presentation target. The visual acuity test apparatus according to claim 1 or 2, wherein the visual acuity value change for changing a visual acuity value change step to be reduced to one step or a plurality of steps when a correct answer of the response to the presenting target does not satisfy a predetermined standard. A visual acuity inspection apparatus comprising a stage changing means.

Images