JPH04133802U - slit lamp microscope - Google Patents

Abstract

(57) [Summary] [Purpose] A slit lamp with a function to automatically set the appropriate shooting light intensity for a slit lamp microscope that performs observation and photography by replacing the objective lens with a specific objective lens. provide. [Structure] The binocular stereomicroscope section includes an objective lens detection section that detects whether the attached objective lens unit is a specific objective lens, and an objective lens that has an identification section that is identified by the objective lens detection section. unit, and the photographing device section includes a photographing light amount adjustment section that adjusts the photographing light amount when a specific objective lens is attached.

Description

[Detailed explanation of the idea]

0001

[Industrial application field]

This invention is used in ophthalmology to illuminate and observe the eye to be examined with a slit light, as well as to take photographs. This article relates to a slit lamp microscope for carrying out. In particular, corneal endothelial cells This relates to a slit lamp microscope that can take pictures.

0002

[Conventional technology]

A slit lamp microscope is used by medical professionals such as ophthalmologists to slit the eye to be examined. A type of microscope used for observing and taking pictures using bright light. slit lamp my The crossscope includes an illumination section for illuminating the eye to be examined with slit light, and an illumination section that A binocular microscope for observing the subject's eye with better illumination and the observation optical path of the binocular microscope It includes a photographing device that is attached midway through the camera and photographs an observed image.

0003 Observation and photography will be performed using the appropriate lighting method and magnification depending on the area of the eye being examined and its medical condition. This is done by selecting and adjusting observation and photography conditions such as magnification. For example, the part of the eye to be examined Among them, an observation and photography method called specular reflection method is used to observe and photograph corneal endothelial cells. is used.

0004 This specular reflection method illuminates the area to be observed and photographed with a medium slit width. Then, move the observation/photographing optical axis to a symmetrical position at the same angle across the perpendicular line, and then This is a method of looking at the boundary of the subject. This specular reflection method can be performed Slit lamp microscopes can be broadly classified into two types: illumination system and microscope system are shared. There are two types of equipment: one has a separate objective lens for the illumination system and the microscope system. , the objective lens of the microscope section of the slit lamp is a special lens for observing and photographing corneal endothelial cells. There are three types of devices: a device that replaces the object lens unit. Above corneal endothelial cell view The objective lens unit for observation and photography uses the objective lens and the light from the objective lens to Equipped with an optical path conversion element that guides the optical path to one side of the body microscope, allowing specular reflection method and magnified photography. It is a special objective lens unit (hereinafter referred to as a specific objective lens unit for corneal endothelial cell observation and photography). (referred to as knit).

[0005] In addition, when taking observation images with a slit lamp microscope, The appropriate exposure amount varies depending on shooting conditions such as lighting method and magnification. Conventionally, corneal endothelial thin Even when photographing cysts, the setting of the photographing light intensity relies on the judgment of the examiner. .

[0006]

[Problem that the idea aims to solve]

In the conventional technology as described above, when taking a photo, it is necessary to set the amount of light for taking the photo. , relies on the intuition and experience of the examiner, and determining the appropriate amount of light for imaging requires the examiner's skill. It was said that Also, in order to take a single photo, the shooting light is actually divided into several stages. I changed the amount setting and took a few extra photos, which resulted in wasted film, etc. I was there.

[0007] Therefore, the present invention is designed to allow the objective lens unit to be replaced with another objective lens unit. When replacing a slit lamp microscope with a specific objective lens unit. , a slit lamp that automatically sets the appropriate amount of light for observation and photography. The purpose is to provide a compact microscope.

[0008]

[Means to solve the problem]

In order to solve the above problems, the present invention provides a method for slit illuminating the eye to be examined. An illumination section, a binocular stereomicroscope section for observing the eye to be examined, and the binocular stereomicroscope section. and a photographing device section that is attached to the camera to photograph the subject's eyes, and the binocular entity The microscope section includes an exchangeable objective unit lens and one end of the objective lens unit. In a slit lamp microscope having an attached lens barrel, The objective lens unit is a specific objective lens unit used under specific imaging conditions. and other objective lens units are available, and specific objective lens units are available. is attached to at least a part of its end to hold another objective lens when attached to the lens barrel section. It has an identification part that allows it to be identified as a unit. When a specific objective lens is attached to the lens barrel of the binocular stereomicroscope, Specific objective lens detection that detects attachment of a specific objective lens unit by detecting a separate part. has a department; Furthermore, when photographing with the photographing device, a specific objective lens detection section detects a specific objective. When a lens is detected to be attached, adjust the shooting light intensity to match the specific shooting conditions. A slit lamp microscope is characterized by being equipped with a photographing light amount adjustment section. provided.

[0009] For example, the specific objective lens unit includes an objective lens and light from the objective lens. Enlarged photography is possible with an optical path conversion element that guides the image to one optical path of the binocular stereomicroscope. It is possible to use objective lens units.

0010

[Effect]

In this invention, the objective lens unit can be replaced with another objective lens unit. In a kit lamp microscope, the objective lens unit is equipped with a specific objective lens. An objective lens having an identification part for identifying the unit and detecting the identification part When the unit detection part is arranged and a specific objective lens is attached, the detection sensor detects that the objective lens is attached, outputs a signal, and controls the photographing light amount adjustment section. automatically sets the appropriate shooting light level. Therefore, when shooting with a specific objective lens, Sometimes, the examiner does not need to set the exposure light level, but only when equipped with a specific objective lens unit. Just by putting it on, the appropriate shooting light level is set and you can take pictures without mistakes.

[0011]

【Example】

An embodiment of the present invention will be described below with reference to the drawings.

0012 FIG. 1 is a diagram showing the configuration of an optical system of a slit lamp microscope. figure In 1, 1 is an illumination section, 2 is a variable magnification objective microscope section, 3 is a photographic device section, and 4 is a binocular eyepiece. Ophthalmic microscope section, 5 is eyepiece lens section, 5c is optometry, 10 is eye to be examined, 63 is limit It's a switch.

[0013] As shown in FIG. , illuminated. Variable magnification objective microscope section 2, binocular eyepiece microscope section 4, and eyepiece lens Section 5 constitutes a binocular microscope. Variable magnification objective microscope section 2 and binocular eyepiece microscope section 4 A photographic device section 3 is installed between the two, and at the time of photographing, an optical path is placed on the observation optical path 2a. A conversion member 3b is inserted to deflect the observation light beam into a photographing light beam. variable magnification objective microscope The mirror section 2, the photographic device section 3, the binocular eyepiece microscope section 4, and the eyepiece section 5 are also mounted on the sliding table 4. Fixed above 0. Between the objective lens 2b and the variable magnification lens 2c of the variable magnification microscope section 2 A limit switch 63 is arranged. This limit switch 63 is It functions as a detection part that detects a fixed objective lens.

[0014] The optical path of an embodiment of the slit lamp microscope of the present invention shown in Fig. 1 is as follows. explain.

[0015] 1 is an illumination unit for illuminating the eye to be examined, and illumination light from an illumination light source lamp 11 is provided. reaches the slit width adjustment mechanism 12 through the condenser lens group 1b. pickpocket The illumination light whose width has been adjusted by the width adjustment mechanism 12 passes through the aperture 13 and the lens 1c. It is vertically deflected by a passing reflector 1d. The vertically polarized illumination light is directed toward the eye being examined. irradiated.

[0016] 2 is a variable magnification objective microscope section, and the illumination light irradiated onto the eye to be examined is It is reflected, enters the variable magnification microscope section 2, and passes through the objective lens 2 on the optical axis 2a as observation light. b, passes through the variable magnification lens group 2c. 3 is a photographic equipment section. Objective lens 2b, variable The observation light that has passed through the magnifying lens group 2c is either a beam splitter or a half mirror. The amount of light is divided and deflected by 3b. This beam splitter or half beam The mirror 3b is configured to be manually moved in and out of the optical axis 2b. This bee The observation light deflected by the mus splitter or half mirror 3b is used as imaging light. It passes through the relay lens 3c as a bundle, is deflected again by the reflection prism 3b, and is photographed. Guided by shadow film 3e. On the other hand, beam splitter or half mirror 3 The observation light that has passed through b is polarized by reflective prisms 4b and 4c in the binocular eyepiece microscope 4. Directed.

[0017] 5 is an eyepiece lens section. The observation light that has passed through the binocular eyepiece microscope section 4 is passed through the lens 5. b, and reaches the observation image plane 5c.

[0018] Next, using Figures 2 and 3, we will explain the detection part of the objective lens unit in detail. explain.

[0019] Figure 2 shows the case where an objective lens other than the specified objective lens is attached, and Figure 3 shows the case where an objective lens other than the specified objective lens is attached. FIG. 4 is a diagram illustrating a case in which lenses are worn.

[0020] 2 and 3 show a part of the configuration of the variable magnification objective microscope section 2. FIG. Figure 2, fig. 3, the limit switch 63 includes a mechanism section 63a and an actuator. 63b. The lens barrel 61 of the variable power lens section has a variable power lens 2c inside thereof. It is provided with a variable magnification lens chamber 71 in which is fixed. The lens barrel 61 of the variable magnification lens section has an optical axis It has an opening for mounting the objective lens 22 in the direction. The end 61 of the opening The depth from the bottom portion 61b to the bottom portion 61b is L1. The actuator 63b is located at the end of the opening. The mechanism portion 63a also has an opening so as to protrude from the portion 61a to a depth L2. The limit switch 63 is fixed to the lens barrel 61 so that it does not protrude. Rimi The actuator 63b moves from the end 61a side of the opening to the bottom. When a force of more than a certain value is applied in the direction of 61b, the mechanism part 63a turns on/off, A signal is generated based on this.

[0021] As shown in FIG. 2, the objective lenses 22 other than the specific objective lens unit are It is composed of a chamber 62 and an objective lens group 2b. The objective lens 22 is a variable magnification lens section. 21, for example, by screwing. Objective lens 22 is attached. In this case, the end 62a of the lens chamber extends from the end 61a of the opening of the variable power lens section 21, It is located at depth L3. L3 is the objective lens so that L3<L2. 22 lens chambers 62 are designed. Therefore, the end 62a of the lens chamber 62 is objective lenses other than the specific objective lens unit without contacting the actuator. When the lens 22 is attached, the mechanism section 63a does not output a signal.

[0022] The objective lens unit shown in Figure 3 is a specific objective lens for observing and photographing corneal endothelial cells. The lens unit 72 includes an objective lens group 70 and an objective lens group in the order in which light enters. Relay lens 6b for making the light incident along the optical axis of 70 into an afocal system , a deflection prism so that light is incident along one optical axis of the binocular microscope system. It has rhythm 6a. The member 65 includes a relay lens 6b and a deflection prism. 6a is fixed via a prism fixing member 66. In addition, objective lens group 7 0 is removably attached to a male threaded member 68, and the objective lens group can be replaced. The structure is such that the magnification can be changed by doing so. Male threaded member 68 is engaged with the female threaded member 67 and is connected to the male threaded member 68. By rotating the lens group 69, the objective lens group 70 is moved forward and backward relative to the eye to be examined. It has a structure that allows it to be moved, making it easy to fine-tune focus when increasing magnification.

[0023] As shown in FIG. 3, a specific objective lens unit 72 for observing and photographing corneal endothelial cells By tightening the fixing ring 64, the opening of the variable magnification lens section 21, Will be installed securely. When attached, the end 65a of the member 65 becomes the opening of the variable magnification lens section. It is located at a depth L4 from the end 61a. L4 becomes L1>L4>L2 The member 65 of the specific objective lens 72 is designed so that the member 65 of the specific objective lens 72 is From the end 62a of the lens chamber of the outer objective lens 22, into the opening of the variable magnification lens section 21. stand out. Therefore, the end portion 65a of the member causes the actuator 63b to exceed a certain value. By pressing down with force, it becomes an identification part that can be identified by the limit switch. There is. Therefore, the specific objective lens unit 72 for observing and photographing corneal endothelial cells is When attached, the mechanism section 63a outputs a signal.

[0024] The photographing light amount adjusting device in the photographing device starts from the mechanism section 63a of the limit switch. Receive the output signal. Slit lamp photography is used to photograph corneal endothelial cells. The imaging area, slit width, slit irradiation angle, and imaging magnification necessary for determining the exposure of It's almost decided. For example, to observe corneal endothelial cells, the Shadows require a magnification of about 20 times or more. Photographic light amount adjustment device in photographic equipment In order to photograph corneal endothelial cells, an appropriate amount of photographing light is set in advance. photograph When the light amount adjustment device receives a signal from the limit switch 63, the light amount adjustment device adjusts the settings in advance. Adjust the lighting section so that it emits the specified amount of shooting light.

[0025] Therefore, the variable magnification lens section 2 of the binocular stereomicroscope of the slit lamp microscope A specific objective lens unit 72 for corneal endothelium observation and photography is attached to 1. In this case, the mechanism section 63a of the limit switch outputs a signal, and the photographing light amount adjustment device , automatically adjusts the imaging light intensity to be suitable for imaging corneal endothelial cells. Corneal endothelial cell view If an objective lens 22 other than the specific objective lens for observation and photography is attached, As before, the examiner only has to set the appropriate amount of light.

[0026] In addition, when changing the magnification and taking a picture, it has a function that also detects the magnification information and If you perform correction, you can obtain even more suitable exposure.

[0027] In this example, as a limit switch, a signal is generated when the displacement exceeds a certain value. Although a switch that outputs the output is used, the present invention is not limited to this, and for example, Various sensors such as a pressure sensor to detect the degree of movement and a position sensor to detect the amount of movement are used. Available for use. Additionally, a proximity sensor that does not come into contact with the objective lens unit is used. You can also Examples of proximity sensors include photocouplers and Hall elements. , etc. can be used. A sensor that can detect pressure and movement in stages. When using a sensor, various types of objective lenses can be detected depending on the pressure and amount of movement. It is also possible to design it so that

[0028] In this example, a specific objective lens for observing and photographing corneal endothelial cells was described. , in a photography method in which the objective lens is replaced with a specific objective lens, It is possible to automatically adjust the amount of shooting light using a method similar to this example. .

[0029]

[Effect of the idea]

As described above, according to the present invention, in a slit lamp microscope, dual An objective lens detection section is arranged in the eye microscope section, and an identification section that is identified by the detection section is arranged. By using an objective lens unit with When the camera reaches the camera, the detection unit outputs a signal and the shooting light intensity is automatically set. . Therefore, according to the present invention, when photographing with a specific objective lens attached, the The shooting light intensity can be set without relying on the examiner's intuition, and it also saves a few extra shots. Just attach a specific objective lens without having to take a photo, and the failure will be automatically detected. Provides a slit lamp microscope that allows easy imaging without be done.

[Brief explanation of drawings]

FIG. 1 is an optical layout diagram showing the configuration of an optical system of an example of a slit lamp microscope according to the present invention.

FIG. 2 is a sectional view showing an example of a case where an objective lens other than a specific objective lens is attached.

FIG. 3 is a cross-sectional view showing an example of a case where a specific objective lens for observing and photographing corneal endothelial cells is attached.

[Explanation of symbols]

1... Illumination section, 2... Variable magnification objective microscope section, 3... Photographic device section,
4... Binocular eyepiece microscope part, 5... Eyepiece part, 5c... Optometry, 10... Eye to be examined, 3b... Beam splitter or half mirror, 3d... Reflection prism, 63... Limit switch, 63a... Mechanism part, 63b... Actuator, 7
2...Specific objective lens unit

Claims (3)

[Scope of utility model registration request] 1. An illumination unit for illuminating the eye to be examined with a slit, a binocular stereomicroscope unit for observing the eye to be examined, and a photographing device unit attached to the binocular stereomicroscope unit to photograph the eye to be examined. and the binocular stereomicroscope section,
In a slit lamp microscope having an exchangeable objective unit lens and a lens barrel portion to which one end of the objective lens unit is attached, the objective lens unit includes a specific objective lens unit used under specific imaging conditions; and other objective lens units are prepared, and the specific objective lens unit has an identification part on at least a part of its end that allows it to be identified from the other objective lens units when attached to the lens barrel part, The lens barrel section of the binocular stereomicroscope section has a specific objective lens detection section that detects the identification section when a specific objective lens is attached to detect attachment of the specific objective lens unit; A slit lamp micro comprising a photographing light amount adjusting section that adjusts the photographing light amount corresponding to the specific photographing conditions when a specific objective lens detecting section detects attachment of a particular objective lens when photographing with the device. scope. 2. In claim 1, the specific objective lens unit is an objective lens unit capable of magnified photography, which includes an objective lens and an optical path conversion element that guides light from the objective lens to one optical path of the binocular stereomicroscope. A slit lamp microscope characterized by: 3. According to claim 1 or 2, at least a part of the end of the specific objective lens unit protrudes into the lens barrel from the end of the other objective lens unit when attached to the lens barrel. A slit lamp microscope having a configuration in which the specific objective lens detection section has a limit switch disposed within a lens barrel section and operated by a protruding portion of the specific objective lens unit.