JP2004180708A - Fundus camera - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a fundus camera capable of well observing an eye to be examined of a micropupilla. <P>SOLUTION: The shading area of an eye lens baffle 15 in an illumination light path is made variable and the state of the eye lens baffle 15 is detected by a detection means 20. A control means 18 increases and decreases the quantity of light of an observation light source 10 or the sensitivity of a television camera 9 to make the brightness of the image obtained by an image pickup means 5 proper to perform an accurate ophthalmic diagnosis. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
TECHNICAL FIELD The present invention relates to a fundus camera capable of photographing a small pupil used in an ophthalmic clinic or a group examination.
[0002]
[Prior art]
Conventionally, when the eye to be examined does not have a sufficient mydriasis and a small pupil diameter at the time of fundus photographing, the entrance area is increased by switching the lens baffle, for example, as disclosed in JP-A-5-15497. 2. Description of the Related Art A fundus camera for photographing an image is known.
In such a fundus camera, normally, the action of a small pupil diameter switch is used to switch the crystalline lens baffle to increase the incident area, and further increase the amount of illumination, thereby performing color photography by increasing the amount of incident light. ing.
[0003]
[Problems to be solved by the invention]
However, in the above-mentioned conventional example, an appropriate image can be obtained by controlling the incident area and the incident light amount of the color photographed image.
However, if only the small pupil diameter switch is actuated during observation, an inappropriate image is displayed unless an increase in the amount of observation light or sensitization of the image sensor is separately applied, and a desired observation image is obtained. There is a disadvantage that it is difficult to be obtained. Furthermore, there is a disadvantage that the photographer has to re-do the photographing, which may be troublesome for the photographer, which is extremely troublesome.
[0004]
An object of the present invention is to solve the above-mentioned problems and to obtain an observation image with high accuracy by performing an appropriate increase in the amount of observation light or a sensitization setting of an imaging element for observation even during observation, thereby obtaining an accurate diagnosis. Another object of the present invention is to provide a fundus camera capable of performing efficient and efficient imaging.
[0005]
[Means for Solving the Problems]
A fundus camera according to the present invention for achieving the object described above has an illumination optical system that illuminates an eye to be inspected with an illumination light source, and is disposed in the illumination optical system and shields harmful light at a position substantially conjugate with a lens of the eye to be examined. A fundus camera having a light-shielding means for changing the area of the eye and an imaging means for observing the image of the eye to be inspected illuminated by the illumination optical system using an image sensor, according to a change in the area of the light-shielding means during observation of the eye to be inspected. And automatically changing the light amount of the illumination light source or the sensitivity of the imaging device.
[0006]
BEST MODE FOR CARRYING OUT THE INVENTION
The present invention will be described in detail based on the illustrated embodiment.
FIG. 1 shows a configuration diagram of a fundus camera according to the present embodiment, in which an objective lens 1 is disposed in front of an eye E to be inspected, a perforated mirror 2 is provided on an optical path behind the eye 1, and is movable for focusing. An imaging unit 5 including a photographic lens 3, a movable mirror 4, and a television camera having sensitivity in the visible wavelength region is sequentially arranged to form a fundus imaging optical system.
[0007]
A fixation lamp 7 is arranged at a position substantially conjugate with the half mirror 6 and the fundus Er in the reflection direction of the movable mirror 4. In the reflection direction of the half mirror 6, a field lens 8 and a television camera 9 having sensitivity in an infrared wavelength region are sequentially arranged to form an observation optical system.
[0008]
Further, an illumination optical system is provided in the direction of incidence of the illumination light to the perforated mirror 2, and a condenser lens 11, a visible light cut filter 12, and a flash of visible light from an observation light source 10 that emits visible light such as a halogen lamp. An imaging light source 13 that emits light, a ring slit 14 having a ring-shaped opening and substantially conjugate with the pupil Ep of the eye E, and a lens baffle having a ring-shaped opening and substantially conjugate with the posterior lens surface Es of the eye E to be examined. 15, a corneal baffle 17 having a ring-shaped aperture, a lens 16, and a substantially conjugate position with the cornea Ec to be examined is sequentially arranged.
[0009]
Outputs of the imaging unit 5 and the television camera 9 are connected to a control unit 18, which detects the states of the fixation lamp 7, the observation light source 10, the imaging light source 13, the television monitor 19, and the crystalline lens baffle 15. The detection means 20 such as a microswitch and the image recording medium 21 are connected to each other.
[0010]
FIG. 2 shows a front view of the lens baffle 15. The lens baffle 15 has a fixed light-shielding portion 15a at a central portion for shielding harmful light, and can be manually or electrically rotated around a fulcrum 15b in a direction indicated by an arrow, and a light-shielding portion. The movable light-shielding portion 15c covers the light-shielding portion 15a, and the area of the light-shielding portion can be changed by inserting and removing the movable light-shielding portion 15c in the optical path.
[0011]
In the case of normal imaging, that is, when the pupil is sufficiently dilated, the movable light-shielding portion 15c is inserted so as to cover the light-shielding portion 15a at the center of the crystalline lens baffle 15, and in the case of small pupil imaging, the movable light-shielding portion 15c is provided. To the outside of the optical path. The detecting means 20 is arranged near the other end 15d of the movable light-shielding portion 15c, and can detect the state of the movable light-shielding portion 15c based on the movement of the other end 15d.
[0012]
Next, in a normal imaging procedure, the photographer sits the subject in front of the fundus camera, positions the subject's eye E in front of the objective lens 1, and performs alignment for fundus imaging. When the observation light source 10 is turned on, the luminous flux is condensed by the condenser lens 11, and the observation light converted into the observation luminous flux by the visible light cut filter 12 is transmitted to the imaging light source 13, the ring slit 14, the crystalline lens baffle 15, and the relay lens 16. The light is reflected to the left by the perforated mirror 2 through the corneal baffle 17, passes through the objective lens 1, and illuminates the fundus Er via the pupil Ep of the eye E to be examined.
[0013]
The fundus image of the fundus Er illuminated with the observation light by the observation light beam passes through the objective lens 1, the aperture of the perforated mirror 2, passes through the imaging lens 3, is reflected upward by the movable mirror 4, and is further reflected by the half mirror 6. Is reflected to the left, and reaches the television camera 9 via the field lens 8. The television camera 9 having sensitivity to the observation light outputs the received fundus image to the television monitor 19 via the control means 18.
[0014]
FIG. 3 is an explanatory diagram of the fundus image Er ′ in the normal photographing. The photographer projects the fixation target by the fixation lamp 7 to the eye E while observing the fundus image presented on the television monitor 19. , Precise alignment of the fundus Er and the fundus camera, focusing, and confirmation of the photographing range. The fixation target 7a is obtained by electrically combining the position of the fixation lamp 7 presented to the eye E with the fundus image Er 'on the television monitor 19 and displaying the result.
[0015]
After confirming that the photographing range, position, and focusing are good, the photographer operates a photographing switch (not shown) to photograph a still image. The control unit 18 that has detected the input of the photographing switch jumps up the movable mirror 4 to retreat outside the optical path and emits the photographing light source 13. The photographing light flux emitted from the photographing light source 13 passes through the ring slit 14 and the ring-shaped opening of the crystalline lens baffle 15 similarly to the observation light, passes through the relay lens 16 and the corneal baffle 17, and passes through the mirror section around the perforated mirror 2. And illuminates the fundus Er from the pupil Ep of the eye E through the objective lens 1.
[0016]
The fundus image Er ′ thus illuminated passes through the objective lens 1 and the aperture of the perforated mirror 2, forms an image on the imaging surface of the imaging unit 5 via the imaging lens 3, The fundus image is displayed on the monitor 19 and the image is recorded on the image recording medium 21.
[0017]
Also in the case of small pupil photography, the procedure for the photographer to align the subject's eye E with the fundus camera is the same as that in the normal photography described above. However, when the mydriasis of the eye E is insufficient and the pupil diameter is small, the central portion of the fundus image Er ′ becomes dark as shown in FIG.
[0018]
Therefore, the photographer retreats the movable light-shielding portion 15c of the crystalline lens baffle 15 shown in FIG. 2 out of the optical path, and changes the incident area of the light beam by disposing only the fixed light-shielding portion 15a having a small light-shielding area on the optical axis. I do. However, since the image is unclear only by increasing the incident area of the light beam, the control unit 18 increases the light amount of the observation light source 10 or the sensitivity of the television camera 9 when checking the detection state of the detection unit 20.
[0019]
As a result, a good observation image can be obtained. Thereafter, the photographing switch is operated in the same manner as in normal photographing, the photographing light source 13 is caused to emit light, and a fundus image is photographed. The information is recorded on the recording medium 21.
[0020]
FIG. 5 is a flowchart showing the procedure of photographing. First, in step S1, the fundus camera is initialized, and in step S2, the eye E is observed. Subsequently, the mydriasis state of the eye E is determined in step S3, and if it is determined that the pupil is not sufficiently mydriatic, the process proceeds to step S4 where the lens baffle 15 is switched, and the light amount increases in step S5. Alternatively, after the sensitivity is increased, the eye E is photographed in step S6.
[0021]
If the eye E has a sufficient mydriasis in step S3, the process proceeds to step S6, and the eye E is photographed as it is. By this procedure, a good observation image can be obtained even when the eye E is a small pupil, and a captured image can be easily obtained.
[0022]
In the present embodiment, the operation of the lens baffle 15 is detected to determine the observation at the time of the small pupil. However, when the switching of the lens baffle 15 is electrically driven, the input operation of the switching is detected as a determination criterion. Means 20 can be omitted.
[0023]
Some of the embodiments of the present invention are listed below.
[0024]
[Embodiment 1] An illumination optical system for illuminating an eye to be inspected with an illumination light source, and a light shielding unit arranged in the illumination optical system and having a variable area for shielding harmful light at a position substantially conjugate with a crystalline lens of the eye to be examined. A fundus camera having an imaging unit for observing an image of the eye to be inspected illuminated by the illumination optical system using an imaging device, wherein a light amount of the illumination light source or an imaging device according to a change in the area of the light shielding unit during observation of the eye to be inspected A fundus camera characterized by automatically changing the sensitivity of the eye.
[0025]
Second Embodiment The fundus camera according to the first embodiment, wherein the illumination light source is an observation light source.
[0026]
Third Embodiment The fundus camera according to the first embodiment, wherein the area of the light shielding unit is made variable by inserting and removing a movable light shielding member having a large area into and from a fixed light shielding member having a small area. .
[0027]
[Embodiment 4] The fundus camera according to Embodiment 3, wherein the detection is performed by detecting a change in the area of the light shielding unit and by detecting the movement of the movable light shielding member.
[0028]
【The invention's effect】
As described above, the fundus camera according to the present invention provides a high-precision ophthalmologic camera by changing the light amount of the illumination light source or the sensitivity of the imaging device in accordance with a change in the area of the light shielding means in the illumination optical system during observation of the eye to be inspected. Perform diagnostics.
[Brief description of the drawings]
FIG. 1 is a configuration diagram of a fundus camera according to the present embodiment.
FIG. 2 is a front view of a lens baffle.
FIG. 3 is an explanatory diagram of a television monitor during normal fundus observation.
FIG. 4 is an explanatory diagram of a television monitor when observing a fundus of a small pupil diameter eye to be inspected.
FIG. 5 is a flowchart of a shooting procedure.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Objective lens 2 Perforated mirror 3 Imaging lens 5 Imaging means 7 Fixation lamp 9 TV camera 10 Observation light source 13 Imaging light source 15 Lens baffles 15a, 15c Light shielding member 18 Control means 19 TV monitor 20 Detection means

Claims (1)

An illumination optical system that illuminates the subject's eye with an illumination light source, a light shielding unit that is disposed in the illumination optical system, and that has a variable area for shielding harmful light at a position substantially conjugate with the crystalline lens of the eye to be examined, and the illumination optical system. A fundus camera having imaging means for observing the illuminated eye image using an imaging element, the light amount of the illumination light source or the sensitivity of the imaging element is automatically adjusted according to a change in the area of the light shielding means during observation of the eye to be inspected. A fundus camera characterized by changing.

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