JPH049047B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application The present invention provides a visual field measurement device that presents an optotype to a subject and measures whether or not there is an abnormality in the visual field of the subject based on the response. It is related to.

BACKGROUND ART Conventionally, visual field measuring devices have been known that present an optotype to a person to be measured and measure whether or not there is an abnormality in the visual field of the person to be measured. This visual field measuring device is
It has a face receiving hole, and the inner part of the face receiving hole is a substantially hemispherical dome, and light emitting elements as visual targets are arranged on the inner surface of the dome based on a predetermined pattern. To measure the visual field, the subject inserts his or her face into the face receiving hole, looks at the inner surface of the dome as the observation surface, keeping the line of sight constant, and observes the lighting of each light emitting element. By operating a recognition switch to recognize whether a light-emitting element is turned on, data is collected as to whether or not the light-emitting element located in which direction of the line of sight is recognized as being turned on.

By the way, from the viewpoint of accurate measurements, it is required for visual field measuring devices to maintain the brightness of the observation surface at a predetermined level in order to keep the visibility of the subject constant. , the brightness of the observation surface is detected and the illumination light source that illuminates the observation surface is controlled so that the brightness of the observation surface becomes a predetermined brightness.However, the brightness of the observation surface becomes the predetermined brightness. Even though the illumination light source is controlled in this way, the observation surface may not have a predetermined brightness.

For example, if the illumination light source burns out or the amount of light emitted decreases, and even though the illumination light source is controlled to increase the brightness, the brightness of the observation surface does not increase to a predetermined brightness. The amount of external light entering the dome from the face receiving hole is too large, and even though the illumination light source is controlled to reduce the brightness, the brightness of the observation surface does not decrease to the specified brightness. There are cases.

Purpose of the Invention The present invention has been made in consideration of the above circumstances, and its purpose is to prevent the brightness of the observation surface from being abnormal when the brightness of the observation surface is not within a predetermined brightness range. It is an object of the present invention to provide a visual field measurement device which issues a warning as a result.

Structure of the Invention The present invention is characterized by a discriminating circuit that determines whether or not the luminance of the observation surface is within a predetermined luminance range based on the luminance detection of the observation surface, and a discriminating circuit that determines whether or not the luminance of the observation surface is within a predetermined luminance range. A brightness abnormality warning circuit is provided which indicates that the brightness of the observation surface is abnormal when there is no brightness on the surface and warns of a brightness abnormality.

Embodiments Below, embodiments of the visual field measuring device according to the present invention will be described based on the drawings.

In FIG. 1, 1 is a visual field measuring device,
The visual field measuring device 1 here generally includes a pedestal 2 and a visual field measuring device main body 3. The pedestal 2 is roughly composed of a pedestal section 4 and a support section 5 , and the visual field measuring device main body 3 is attached to the upper end of the support section 5 . This visual field measurement device main body 3 is
The height of the support column 5 can be changed by adjusting the height. The visual field measuring device main body 3 has a housing 6 . This housing 6 has a built-in dome 7 having a substantially hemispherical shape. A large number of light emitting elements 8 are arranged on the inner surface of the dome 7 based on a predetermined pattern. This light emitting element 7 is composed of an LED element here,
It functions as a visual target. The housing 6 is provided with a panel 9 on the front thereof. A face receiving hole 10 is formed in this panel 9.
The person to be measured inserts his or her face into the face receiving hole 10 and responds to the measurement. A face receiving hole 10 is provided with a face receiving member 11 for fixing the face, and this face receiving member 11 is composed of a forehead rest part 12 and a chin rest part 13.

The visual field measuring device main body 3 is provided with an operation display device 14 and handles 15 and 16 on its side surface. The handle 15 has a function of driving the face support member 11 to adjust the height of the face, and the handle 16 has a function of driving the face support member 11 to adjust the horizontal position of the face. This places the eye to be measured at the center of the dome. The operation display device 14 has an operation screen 17, a fixation monitoring screen 18, a control switch 19, and a light pen 20. The operation screen 17 is supposed to display information including a plurality of operation commands, and includes a control switch 19 and a light pen 2.
An operation command can be selected by operating 0. On the fixation monitoring screen 18,
The anterior segment of the subject's eye is displayed,
The measurer is able to monitor whether the person being measured is gazing at a fixation target placed at the center of the dome. A printing mechanism 21 is provided at the bottom of the operation display device 14, and the measurement data is compiled and printed out. The light emitting elements 8 are individually turned on, and the subject inserts his or her face into the face receiving hole 10, and the light emitting elements 8 are presented to each individual as an optotype while keeping the line of sight constant. The main body 3 of the visual field measuring device is provided with a switch 22 for recognizing the lighting of the light emitting element 8.

The dome 7 is provided with a fluorescent lamp 23 as an illumination light source that illuminates the inner surface of the dome as an observation surface. The fluorescent lamp 23 is turned on and off by a fluorescent lamp lighting circuit 24, as shown in FIG. 2, and the fluorescent lamp lighting circuit 24 has a switching transistor 25, which The light 23 is turned on and off by this switching transistor 25. A light receiving element 26 is provided on the inner surface of the dome. This light receiving element 26 constitutes a part of a brightness detection circuit 27 that detects the brightness of the observation surface and outputs a brightness detection signal. This brightness detection circuit 27 includes an operation amplifier amplifier 28,
29, and a light receiving element 26 is connected to the non-inverting input terminal + of the operation amplifier amplifier 28.
The anode of is connected and the light receiving element 26 of
The anode of is grounded. The output terminal of the operation amplifier amplifier 28 is connected to the variable resistor 3.
0 to the inverting input terminal of the operational amplifier 30 and the cathode of the light receiving element 26, and is connected to the inverting input terminal of the operational amplifier 29 through a resistor 31. A non-inverting input terminal + of the operational amplifier amplifier 29 is grounded via a resistor 32. The output terminal of the operation amplifier amplifier 29 is connected to the lighting light source control circuit 3.
3 and is connected to the inverting input terminal of the operational amplifier amplifier 29 via a resistor 34.
It is connected to the. The operation amplifier amplifier 28 outputs an output signal corresponding to a change in the amount of light received by the light receiving element 26, and the operation amplifier amplifier 29 has the function of amplifying the output of the operation amplifier amplifier 28 and outputting a brightness detection signal. have. The output value of this brightness detection signal is indicated using the symbol Vi.

The illumination light source control circuit 33 has a pulse width control circuit 35, and the pulse width control circuit 35 compares the reference voltage _V1 and the output value Vi of the brightness detection signal, and determines the output value of the brightness detection signal. The fluorescent lamp lighting circuit 24 is controlled so that Vi approaches the reference voltage _V1 . Here, this pulse width control circuit 3
5 uses a μPC494 made by NEC Corporation, and this μPC494 has a function of outputting pulses with a predetermined period, and the switching transistor 25 is turned on and off based on the pulses. It is. The fluorescent light 23 blinks and blinks each time the switching transistor 25 is turned on and off, and its blinking period is set to a period that does not cause flickering, and the output value of the brightness detection signal
When Vi is lower than the reference voltage V ₁ , pulse 1
The pulse width output from μPC494 is controlled so that the lighting time of each fluorescent light 23 becomes longer.
When the output value Vi of the brightness detection signal is higher than the reference voltage _V1 , the pulse width output from the μPC 494 is controlled so that the lighting time of the fluorescent light 23 for each pulse is shortened. .

The brightness detection signal is input to a determination circuit 36, and the determination circuit 36 has a function of determining whether or not the brightness of the observation surface is within a predetermined brightness range that includes a predetermined brightness based on the brightness detection signal. There is. This discrimination circuit 36 includes a comparison circuit 37, a NOR circuit 38, and a reference level setting circuit 39. The comparison circuit 37 includes a comparator 40 and a comparator 41, and the reference level setting circuit 39 is a parallel circuit including a resistor 42 and a resistor 43. The comparator 40 has a reference voltage level V ₃ applied to its positive terminal via a resistor 42, and the comparator 41 has a reference voltage level V ₂ applied to its negative terminal via a resistor 43. A resistor 4 is connected between the negative terminal of the comparator 40 and the positive terminal of the comparator 41.
The output value V ₁ of the brightness detection signal is provided through the output signal V 4 . Here, the reference voltage level
V ₃ is set higher than the reference voltage level V ₂ , and the comparator 40 outputs H when the output value Vi of the brightness detection signal is lower than _{the reference voltage level V 3 .} When the output value Vi is high, the output is L, and the comparator 41 outputs the output value of the brightness detection signal higher than the reference voltage level _V2 .
When Vi is low, the output is L, and when the output value Vi of the brightness detection signal is higher than the reference voltage level _V2 , the output is H. The comparison circuit 37 determines whether the brightness of the observation surface is within a predetermined brightness range based on whether the output value Vi of the brightness detection signal is between the reference voltage level _V2 and the reference voltage level _V3 . The output of the comparator 40 is input to the negative input terminal 47 of the NOR circuit 38 via a resistor 45, and the output of the comparator 41 is input to the NOR circuit 38 via a resistor 46.
It is input to the other input terminal 48.

The NOR circuit 38 has two input terminals 47 and 4.
8, when both outputs are H, the output becomes L, and in the state since then, it becomes H. The output of the NOR circuit 38 is input to the brightness abnormality warning circuit 50 via the resistor 49. has been done. The brightness abnormality warning circuit 50 has a function of warning that the brightness of the observation surface is abnormal when the brightness of the observation surface is not within a predetermined brightness range based on the determination result of the determination circuit 36. This brightness abnormality warning circuit 50 has a switching transistor 51 and a light emitting diode 52 for warning display.
When transistor 1 is turned on, it is energized in the direction of arrow A and turns on.
1 is turned on when the output of the NOR circuit 38 is H, and the NOR circuit 38 is connected to the comparator 40.
The output of the comparator 41 is L, and the output of the comparator 41 is H
and when the output of the comparator 40 is H and the output of the comparator 41 is L, the output of the comparator 40 is L and the output of the comparator 41 is The output being H corresponds to the case where the output value Vi of the brightness detection signal is higher than the reference voltage level _V3 , and the output of the comparator 40 is H and the output of the comparator 41 is L. corresponds to the case where the output value Vi of the brightness detection signal is lower than the reference voltage _V2 , and the fact that the output of the comparator 40 is H and the output of the comparator 41 is H means that the output value Vi of the brightness detection signal is This corresponds to the case where the output value Vi is higher than the reference voltage level _V2 and lower than the reference voltage level _V3 .

Effects of the Invention As explained above, the present invention includes a determination circuit that determines whether or not the brightness of the observation surface is within a predetermined brightness range based on the brightness detection of the observation surface, and based on the determination result, the predetermined brightness is Since the brightness of the observation surface is abnormal and a warning is issued when the brightness of the observation surface is not within the range, even though the illumination light source is controlled so that the observation surface has a predetermined brightness, This has the effect that it is possible to confirm a situation where the luminance is not a predetermined brightness, and this leads to the effect that measurement accuracy is improved by preventing measurements under inappropriate measurement conditions.

[Brief explanation of drawings]

FIG. 1 is a perspective view illustrating a schematic configuration of a visual field measuring device according to the present invention, and FIG. 2 is a circuit diagram of the visual field measuring device according to the present invention. 1... Visual field measuring device, 23... Fluorescent light, 26...
...Light receiving element, 27...Brightness detection circuit, 28, 29
...Operation amplifier, 33...
Illumination light source control circuit, 36... Discrimination circuit, 37...
... Comparison circuit, 38 ... NOR circuit, 39 ... Reference level setting circuit, 50 ... Brightness abnormality warning circuit, 52
...Light emitting diode.

Claims (1)

[Claims] 1. An illumination light source that illuminates an observation surface on which a visual target is presented, a brightness detection circuit that detects the brightness of the observation surface and outputs a brightness detection signal, and a brightness detection circuit that detects the brightness of the observation surface and outputs a brightness detection signal. and an illumination light source control circuit that controls the illumination light source so that the brightness of the observation surface becomes a predetermined brightness based on a brightness detection signal that includes a predetermined brightness including the predetermined brightness. a determination circuit that determines whether or not the brightness of the observation surface is within a range based on the brightness detection signal; A visual field measurement device that is provided with a brightness abnormality warning circuit that warns of abnormal brightness when the brightness of a surface is abnormal.