JP3662127B2 - Night vision test device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a night vision test device used for driving aptitude test and the like.
[0002]
[Prior art]
For example, when driving a car, assuming a state of suddenly entering a dark tunnel during the day, light adaptation to the eye to be examined is made by looking at a space equivalent to daytime brightness for a certain time (for example, 30 seconds). There has been known a night vision test apparatus in which a dark adaptation test is performed in which a visual target is presented in a dark field of view and a time until the visual target is visible is measured.
[0003]
[Problems to be solved by the invention]
By the way, as a test under a special visual environment at night, there is a glare vision test that examines the visual acuity when receiving glare from a headlight of an oncoming vehicle when driving at night. In car driving aptitude tests and the like, it makes a lot of sense if they are performed together with dark adaptation tests.
[0004]
However, conventionally, the glare-proof visual acuity test has been performed by a separate device from the dark adaptation test, and the inspection efficiency was poor. In addition, preparing a separate device is disadvantageous in terms of installation space and cost.
[0005]
In view of the above prior art, an object of the present invention is to provide an apparatus that can efficiently perform the dark adaptation inspection and the under-glare inspection as described above with a single apparatus.
[0006]
[Means for Solving the Problems]
In order to solve the above problems, the present invention is characterized by having the following configuration.
[0007]
(1) Presenting one Landolt ring target to the eye to be examined, target switching means for switching the visual acuity value or cut direction of the Landolt target to be presented, and reading the target of the Landolt ring target presented by the subject Response means for inputting a response signal and dark adaptation time measurement for illuminating a target with a low visual acuity value with low brightness after light adaptation of the eye to be examined, and measuring the time from the target presentation to the input of the response signal A night vision test apparatus comprising: a brightness switching means for switching the brightness of the Landolt ring target to be displayed to normal brightness and low brightness; and controlling the operation of the target switching means, Based on the response result of the person, the target is sequentially switched and presented, and the normal visual acuity measurement program that measures the normal visual acuity (stationary visual acuity) of the subject's eye at normal luminance and glare lamps are given to the subject's eye by the glare lamp A dazzling visual acuity measurement program that presents the visual acuity of 0.5 or a visual acuity of the visual acuity finally determined by normal visual acuity measurement as an initial visual acuity and measures visual acuity under glare. It is characterized by that.
[0008]
(2) Presenting one Landolt ring target to the eye to be examined, target switching means for switching the visual acuity value or cut direction of the Landolt target to be presented, and reading of the target of the Landolt ring target presented by the subject Response means for inputting a response signal and dark adaptation time measurement for illuminating a target with a low visual acuity value with low brightness after light adaptation of the eye to be examined, and measuring the time from the target presentation to the input of the response signal A night vision test apparatus comprising: a brightness switching means for switching the brightness of the Landolt ring target to be displayed to normal brightness and low brightness; and controlling the operation of the target switching means, Based on the response result of the person, the target is sequentially switched and presented, and the normal visual acuity measurement program that measures the normal visual acuity (stationary visual acuity) of the subject's eye at normal luminance and glare lamps are given to the subject's eye by the glare lamp In the state, a visual acuity measurement program for measuring visual acuity under glare by presenting a visual acuity of 0.5 or a visual acuity finally determined by normal visual acuity as an initial visual target, and normal visual acuity measurement An automatic measurement program that sequentially advances the program, the dark adaptation time measurement program, and the glare vision measurement program as a series of examinations .
[0010]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a view showing the appearance of the apparatus of this embodiment. Reference numeral 1 denotes an apparatus main body, and an inspection window 2 is provided at an upper portion of the apparatus main body 1 so that a subject can look into a target presented inside the main body. A user operation panel 3 and a printer 8 are arranged. Further, on the front side of the lower part of the apparatus main body 1, a joystick 5 for the subject to respond to the direction of the presented visual target, a response button 4 for responding that the visual target has been read, which will be described later A start switch 6 is provided for starting inspection in the automatic inspection mode. Reference numeral 9 denotes a speaker to which a voice guide instruction is output.
[0011]
FIG. 2 is a diagram showing a configuration of an optical system and a control system inside the apparatus. A lens 10 is arranged in the inspection window 2, and the inspection target presented by the rear visual target presenting unit 20 by the lens 10 is set to an apparent inspection distance of 5 m from the eye to be examined. A visual field space for bright adaptation of the eye to be examined is secured between the lens 10 and the visual target presenting unit 20 by the internal cover 11, and the visual target of the visual target presenting unit 20 is presented from the visual target window 11a. Is done. The inner surface of the inner cover 11 is painted with a matte white paint, and the brightness is adjusted to about 5700 cd / m ² by turning on the illumination lamp 12 during light adaptation. The illumination lamp 12 is placed at a position where the illumination light does not directly enter the eye to be examined.
[0012]
The optotype disc plate 21 constituting the optotype presenting unit 20 includes Landolt ring optotypes in four directions, left and right and up and down, in 12 stages of visual acuity values of 0.1 to 1.0, 1.2, and 1.5, respectively. A shielding plate that shields the target window 11a during adaptation (a matte white paint similar to that of the inner cover 11) is provided on the concentric circles, and an expected test target or shield by rotation of the motor 22. A plate is selectively placed on the target window 11a. A half mirror 23 is provided behind the optotype disc plate 21, and an illumination lamp 24 that is lit in the normal visual acuity test (stationary visual acuity test) is disposed in the transmission direction of the target disc plate 21. On the direction side, a diffuser plate 25 and an illumination lamp 26 that is turned on during dark adaptation measurement are arranged. In normal visual acuity measurement, the inspection target is presented with a luminance of about 160 cd / m ² by the illumination lamp 24, and in the dark adaptation time measurement, the illumination lamp 26 and the diffusion plate 25 are used to dim about 0.1 to 0.15 cd / m ^2. The test target is presented with the brightness.
[0013]
Further, as shown in FIG. 3, the inner cover 11 in the vicinity of the periphery of the visual target window 11a has four LEDs 13 that emit red light as shown in FIG. 3 (when the visual target window 11a is viewed from the eye side to be examined). Are arranged in the vertical and horizontal directions, and this LED 13 is selectively turned on during light adaptation, and functions as a target to stimulate the eye to be examined and attract attention. Further, a lamp 14 (having a luminance equivalent to a vehicle headlamp) that is turned on at the time of dimming visual acuity measurement is disposed at a position slightly distant from the left and right sides of the target window 11a. The dazzling visual acuity measurement turns on the lamp 14 to inspect the influence of visual acuity when receiving glare due to a headlight of an oncoming vehicle during driving at night.
[0014]
In FIG. 2, reference numeral 30 denotes a control unit for controlling the entire apparatus. In addition to each lamp, motor 22, voice guide generating unit 31 connected to the speaker 9, response button 4, joystick 5, operation panel 3, etc., an inspection program Is connected.
[0015]
The operation of the above apparatus will be described with reference to the switch configuration diagram of the operation panel 3 shown in FIG. In this device, the examiner operates each switch of the operation panel 3 to obtain a verbal response of the examinee to proceed with the examination, and the examinee himself operates the switch by voice guidance. As for the automatic mode in which the examination proceeds according to a predetermined program and the response of the target content to the automatic mode, the examiner does not operate the joystick 5 and the examiner follows the verbal response of the examinee. Three inspection modes of a semi-automatic mode in which an inspection is advanced by operating a switch on the operation panel 3 are prepared, and any one is selected by a mode selection switch 40. Hereinafter, it demonstrates in order.
[0016]
<Auto mode>
In this mode, normal vision measurement (stationary vision measurement), dark adaptation time measurement, and glare vision measurement are sequentially programmed.
[0017]
When the subject presses the start switch 6, first, normal visual acuity measurement is started. The control unit 30 controls the driving of the visual target presenting unit 20 and the lighting of the illumination lamp 24 to present the visual target having a visual acuity value of 0.5 on the visual target window 11a. Further, when the direction of the target can be determined by the voice guide, the subject is instructed to tilt the joystick 5 in that direction. When the subject responds with the joystick 5 with the target discrimination result, the controller 30 determines the correctness. If the response is correct, the visual target with the visual acuity value raised by one level is presented, and if the response is incorrect, the visual target with the visual acuity value lowered by one step is presented. If the answer is incorrect or cannot be discriminated by one step (when the response button 4 is pressed if it cannot be read), the visual acuity value is returned to the level at which it was visible, and the test is continued by changing the direction of the target. If the correctness / incorrectness is determined by the control unit 30 and there is a correct answer twice or more with the same visual acuity target, the visual acuity value is determined as having the visual acuity.
[0018]
Subsequently, a dark adaptation time measurement program is executed. The voice guide announces that the lamp is lit and brightens for 30 seconds, and the LED around the center is lit, so the subject is instructed to tilt the joystick 5 in that direction. After instructing the voice guide, the motor 22 is driven by the control of the control unit 30 so that a shielding plate provided on the target disc plate 21 is placed on the target window 11a, and the illumination lamp 12 is turned on so that the eye to be inspected. The viewing field of view is illuminated. Any one of the four LEDs 13 is lit. When the subject responds to the direction in which the LED 13 is lit by the joystick 5, the control unit 30 automatically determines whether or not the subject has opened his eyes based on the correct / incorrect result (that is, the correct answer). If so, your eyes are open, and if you answer incorrectly, your eyes may not have been opened). If the response from the joystick 5 is incorrect, the voice guide instructs the user to open his eyes.
[0019]
Such selective lighting of the LED 13 and the response by the subject are repeated for 30 seconds. During this light adaptation, the subject pays attention to the lighting of the LED 13, and an action to respond to it is added, so that the subject is not bored and it is hard to open his eyes compared to simply looking at a bright space. .
[0020]
In addition, regarding the presentation of the target to the eye to be examined during this light adaptation, the lighting direction of the LED 13 that is finally lit is made to answer after the lighting of the LED 13 shows that the four lightings rotate and move. By doing so, there is a change in the target presentation, and it is possible to further stimulate the subject, which is effective.
[0021]
When it approaches the end of the light adaptation time, the voice guide announces that after darkening, if you can see the target, immediately push down the lever in the direction of the broken ring. After completion of the light adaptation time, the illumination lamp 12 is turned off and a visual target with a visual acuity value of 0.2 is placed in the indicator window 11a. The visual target is presented with dim brightness by the illumination lamp 26 and the diffusion plate 25. . The control unit 30 measures the time from the start of the target presentation, and when the subject responds to the interpretation of the target with the joystick 5 and determines that the result is valid, the response signal of the joystick 5 is input. Is stored as a measurement result.
[0022]
Next, a dazzling visual acuity measurement is performed. After the voice guide instructs the subject to gaze at the target and respond to the direction of the presented target, the lamps 14 on both sides of the target window 11a are turned on. A visual target with a visual acuity value of 0.5 (or a visual target having a visual acuity value finally determined by normal visual acuity measurement) is presented in the visual target window 11a. 30. Based on the result, the next presentation target is determined, and if there is a correct answer two or more times with the same visual target, the visual acuity value is determined as having visual acuity.
[0023]
When the inspection is completed, the printer 8 automatically prints out the measurement results, the determination results of the measurements, and the general guidance content.
[0024]
<Manual mode>
The examiner selects the manual mode by the switch 40 and selects the eye to be measured by the switch unit 41. In addition, the measurement items of normal visual acuity measurement, dark adaptation time measurement, and glare visual acuity measurement are selected by the switches 42, 43, and 44.
[0025]
Normal visual acuity measurement is performed as follows. The visual acuity value of the visual target presented by the visual acuity switch 45a is selected, and the direction of the visual target presented by the four visual target switches 46a to 46d provided at the center of the operation panel 3 is selected. The optotype selected by the control of the control unit 30 is presented in the optotype window 11a. The selected visual acuity value is displayed on the display 45b, and the lamps 37a to 37d arranged in the vicinity of the target switches 46a to 46d are turned on according to the direction of the selected target. The examiner asks the subject about discrimination of the target, confirms the correctness of the oral response of the subject by lighting the lamps 37a to 37d, and proceeds with the examination. The visual acuity value displayed last is taken as the measurement result.
[0026]
The dark adaptation time is measured as follows. When the switch 43 for dark adaptation time measurement is pressed, the illumination lamp 12 is turned on to illuminate the visual field space seen by the eye to be examined. At the same time, measurement of the light adaptation time is started by the control unit 30, and the time is displayed on the display unit 49. During this light adaptation, the LED 13 is turned on in the same manner as in the automatic mode, and the direction of the LED 13 is answered by the subject. The examiner selects the direction of the LED 13 to be turned on using the target switches 46a to 46d. The examiner asks the subject about the lighting direction of the LED 13, and sequentially changes the lighting direction while confirming the answer. If the subject's response is incorrect, attention is urged to open his eyes. If the correct answer is obtained, it is confirmed that the subject opened his eyes during the light adaptation.
[0027]
When the light adaptation time ends, the illumination lamp 12 is turned off and a target with a dim vision value of 0.2 is presented in the index window 11a. Further, the time from the start of the presentation of the target is counted by the control unit 30, and the time is displayed on the display unit 49. When the subject can read the direction of the target, he / she presses the response button 4 and answers the direction. When the signal from the response button 4 is input, the time display on the display unit 49 stops, and when the direction answered by the subject is correct, the time from the start of the presentation of the visual target becomes the measured value. In the case of an error, the switch 50 is pressed to perform remeasurement.
[0028]
The switch 44 is pressed to perform dimming visual acuity measurement. When this switch is pressed, the lamps 14 on both sides of the visual target window 11a are turned on. In this state, the examiner measures the visual acuity value under glare by selecting the visual acuity value and direction of the visual target to be presented with each switch in the same manner as the previous normal visual acuity test. When the print switch 55 is pressed, each measurement result and general instruction content obtained as described above are printed out.
[0029]
<Semi-automatic mode>
When the subject presses the start switch 6, each measurement proceeds under the instruction of the voice guide according to the program of the same procedure as in the automatic mode. Regarding the determination of the lighting direction of the LED 13 at the time of adaptation, the examiner does not respond with the joystick 5, but the examiner obtains an oral answer of the subject and inputs it with the target switches 46a to 46d. The correctness / incorrectness is determined by the control unit 30. Note that the Landolt ring target discrimination response in the dark adaptation time measurement is input by pressing the response button 4.
[0030]
Such a semi-automatic mode is convenient to use when the subject is not good at operating the joystick and the examiner is not accustomed to the examination or to save labor of the examiner.
[0031]
In the embodiment described above, the LED 13 arranged around the visual target window 11a is used as a target for the eye to be presented at the time of light adaptation. It is also possible to make the direction respond.
[0032]
【The invention's effect】
As described above, according to the present invention, the dark adaptation inspection and the under-glare inspection can be efficiently performed with one apparatus.
[Brief description of the drawings]
FIG. 1 is a diagram illustrating an appearance of an apparatus according to an embodiment.
FIG. 2 is a diagram showing a configuration of an optical system and a control system inside the apparatus.
FIG. 3 is a diagram showing an arrangement of LEDs that are selectively lit during bright adaptation and an arrangement of lamps that are lit when measuring dimming visual acuity.
FIG. 4 is a diagram illustrating a switch configuration of an operation panel.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Main body 3 Operation panel 5 Joystick 11 Internal cover 11a Visual target window 12 Illumination lamp 13 LED
20 Target presentation unit 30 Control unit 33 Memory

Claims (2)

In addition to presenting one Landolt ring target to the eye to be examined, target switching means for switching the visual acuity value or cut direction of the Landolt ring target to be presented, and a response signal for reading the target of the Landolt ring target presented by the subject A response means for inputting, a dark adaptation time measurement program for illuminating a target with a low visual acuity value with low brightness after light adaptation of the eye to be examined, and measuring a time from the target presentation to the input of the response signal; In the night vision test apparatus having the above, the brightness switching means for switching the brightness of the Landolt ring target to be displayed to normal brightness and low brightness and controlling the operation of the target switching means, the response of the subject Based on the results, the visual target is sequentially switched and presented, and the normal visual acuity measurement program that measures the normal visual acuity (stationary visual acuity) of the subject's eye with normal luminance, and the glare lamp is applied to the subject's eye with glare , By presenting the optotype finally the determined eyesight values in visual acuity value 0.5 or ordinary visual acuity measured as an initial optotype, and glare vision measurement program for measuring the visual acuity under glare, further comprising a A characteristic night vision tester. In addition to presenting one Landolt ring target to the eye to be examined, target switching means for switching the visual acuity value or cut direction of the Landolt ring target to be presented, and a response signal for reading the target of the Landolt ring target presented by the subject A response means for inputting, a dark adaptation time measurement program for illuminating a target with a low visual acuity value with low brightness after light adaptation of the eye to be examined, and measuring a time from the target presentation to the input of the response signal; In the night vision test apparatus having the above, the brightness switching means for switching the brightness of the Landolt ring target to be displayed to normal brightness and low brightness and controlling the operation of the target switching means, the response of the subject Based on the results, the visual target is sequentially switched and presented, and the normal visual acuity measurement program that measures the normal visual acuity (stationary visual acuity) of the subject's eye with normal luminance, and the glare lamp is applied to the subject's eye with glare A visual acuity measurement program that measures visual acuity under glare by presenting a visual acuity with a visual acuity value of 0.5 or normal visual acuity finally determined as an initial visual target, and a normal visual acuity measurement program, A night vision inspection device comprising: an automatic measurement program that sequentially advances a dark adaptation time measurement program and a glare vision measurement program as a series of examinations .

Images