KR101481905B1 - Integrated stereoscopic imaging system for surgical microscope - Google Patents

Abstract

The present invention provides an integrated stereoscopic imaging system for a surgical microscope, which includes: a surgical microscope comprising an object lens, a left zoom lens, a right zoom lens, and a left eye lens and a right eye lens; a video adapter device which is arranged between a zoom lens module and the eye lens of the surgical microscope, and includes a pair of beam splitters, a pair of first mirrors, a pair of second mirrors, a pair of iris control devices, a pair of focus control devices and a pair of cameras; and a display which receives an image from the cameras and realizes a stereoscopic image.

Description

Technical Field [0001] The present invention relates to an integrated stereoscopic imaging system for a surgical microscope,

The present invention relates to an apparatus for acquiring the same left and right images as an eyepiece in a surgical microscope using a camera and for displaying the stereoscopic image through a three-dimensional display, and more particularly to a stereoscopic image display apparatus Video adapter device.

As the level of medical care and the development of medical technology, medical equipment of various high-tech products are widely used for medical treatment.

Surgical microscope is a type of medical device that can be operated by looking at the inside of the human body that can not be easily seen by the naked eye in surgery, ophthalmology, neurosurgery, otolaryngology, spinal surgery, obstetrics and gynecology of medical institution. You can see the subject that is incident through the zoom lens through the eyepiece.

If you depend only on the eyepiece in the surgical microscope, you must fix the eye to the eyepiece for a long time during the operation. Therefore, the physician who is the practitioner is accompanied by pain in the neck or waist, And the concentration may be lowered during the surgical procedure. In addition, there is a disadvantage in that it is difficult to grasp the progress of the operation in the case of the operation assistant who performs the operation together.

On the other hand, there is an apparatus equipped with an image system for viewing the operation progress of the operator through an image, that is, a monitor, on a surgical microscope. In this case, the operator performs the surgery while observing the affected part of the patient through the eyepiece of the surgical microscope, and the assistant and the observer other than the operator, or the guardian related to the patient, It is possible to observe progress.

However, in such an image system, an image inputted from a surgical microscope is converted into a video signal and displayed on a monitor. At this time, the image displayed on the monitor is simply displayed as a two-dimensional image.

Therefore, it is difficult to accurately observe and confirm the surgical site in the two-dimensional image displayed through the monitor, and the operator can not perform the operation through the imaging system. In this case, The surgeon has to perform surgery while observing the affected part through the microscope. If the surgeon requires a long time operation, the practitioner has difficulty in not only eye fatigue but also physical fatigue.

On the other hand, in the conventional stereoscopic image system, there is no problem in static surgery, but in case of dynamic surgery in which a lot of microscope movements are frequent, axis shift of the left and right images tends to occur and the fatigue of the eyes is increased . Also, there is a problem that matching of the left and right images is difficult, and images before and after surgery do not maintain the same optical axis.

It is an object of the present invention to provide a video adapter apparatus capable of displaying stereoscopic images by being mounted on a surgical microscope apparatus.

It is another object of the present invention to provide a stereoscopic image acquisition system which enables the same image shown in an eyepiece of an operating microscope to be viewed through a stereoscopic image monitor.

It is still another object of the present invention to provide a video adapter device which can be mounted on various commercially available surgical microscopes without causing a difference in stereoscopic images before and after surgery.

Other objects and technical features of the present invention will be more specifically described in the following detailed description.

According to an aspect of the present invention, there is provided a surgical microscope comprising: an operating microscope including an objective lens, a left and right zoom lens module, and a left and a right eyepiece lens; and a pair of beam splitters disposed between the zoom lens module and the eyepiece lens, A video adapter device including a pair of first mirrors, a pair of second mirrors, a pair of iris adjustment devices, a pair of focus adjustment devices, and a pair of cameras; And a display for realizing a stereoscopic image, and a stereoscopic image acquisition system for an operating microscope.

Wherein a light path is divided into left and right eyepieces and a pair of cameras through a pair of beam splitters of the video adapter unit, and each optical path from the pair of beam splitters to a pair of cameras is divided into a pair An iris adjusting device, and a focus adjusting device are sequentially arranged.

The distance between the pair of first mirrors and the pair of second mirrors is adjusted so that left and right lights are respectively incident on a pair of cameras of the video adapter device.

The pair of first mirrors and the pair of second mirrors of the video adapter device are preferably mounted on the X-Y stage. In this case, the position of the first mirror and the second mirror on the X-axis or the Y-axis can be moved to correct the distortion of the left and right images obtained by the video adapter.

The rotation axis of the left and right images obtained in the video adapter device can be corrected through the rotation of the pair of cameras of the video adapter device.

The present invention is also directed to an optical pickup device comprising a first beam splitter and a second beam splitter for changing the optical path of a beam incident through an objective lens, and a second beam splitter disposed on the optical path incident through the first beam splitter, A first iris adjusting device and a first focus adjusting device disposed on the optical path of the first mirror, and a second focus adjusting device for adjusting a distance between the first mirror and the first focus adjusting device, A second mirror disposed on the optical path of the second mirror, and a second mirror disposed on the optical path of the second mirror; And a second camera for acquiring a second image through which light having passed through the second focus adjusting device is incident.

According to the present invention, the same image shown on the eyepiece of the surgical microscope can be seen through the stereoscopic image monitor.

In addition, in the case of dynamic as well as static when the motion of the surgical microscope is small, there is no deviation of the optical axis between the objective lens and the camera, which causes image shift due to the integrated video adapter structure, and a stable stereoscopic image can be obtained.

In addition, there is no difference in the stereoscopic images before and after the surgery, and stereoscopic images can be acquired by attaching the stereoscopic images to various commercial surgical microscopes, so that the stereoscopic images can be effectively used in various medical fields. It will contribute greatly to height.

1 is a schematic view of an optical system of an operation microscope
2 is a schematic view showing a planar structure of an integrated stereoscopic image acquisition system of a surgical microscope

The present invention proposes a new stereoscopic image acquisition system that can acquire a stereoscopic image by attaching a video adapter device equipped with a left and right camera to an operation microscope apparatus and display it on a stereoscopic image monitor device, thereby maximizing the surgical effect.

A stereoscopic image acquisition system for a surgical microscope according to the present invention is a stereoscopic image acquisition system in a conventional surgical microscope apparatus including an objective lens, a zoom lens, and an eyepiece lens. The system includes a video adapter between a zoom lens and an eyepiece lens, Eye image data that is the same as the image of the left eye and the right eye image, and can display the stereoscopic image through the three-dimensional display from the image data.

Referring to Fig. 1, a schematic configuration of an optical system of an operation microscope is shown.

The operating microscope 100 includes an objective lens 110, a zoom lens 120, and an eyepiece lens 130. The zoom lens may be composed of several lens modules, and the eyepiece lens may be a pair of eyepieces . Between the zoom lens and the eyepiece, a video adapter device 200 for acquiring a stereoscopic image is included. Fig. 1 schematically shows components for the sake of convenience in explaining the technical structure of the present invention. In a practical surgical microscope, the video adapter device suffices only when the beam splitter is disposed on the optical path of the surgical microscope.

The light for the subject P is separated into two optical paths BI and BII through the objective lens 110. The separated light passes through the left and right zoom lens modules 120, Is divided into the light incident on the eyepiece 130 and the light incident on the cameras 250a and 250b of the video adapter device while passing through the beam splitter.

A video adapter device disposed between the objective lens and the zoom lens module is composed of an optical system for acquiring left and right eye image data and a mechanical device capable of increasing the quality of image data through movement and position adjustment of the optical system.

2 is a schematic diagram showing a configuration of a video adapter device 200 for an integrated stereoscopic image acquisition of an operation microscope.

The video adapter device includes a first beam splitter 210a and a second beam splitter 210b for changing an optical path of a beam incident through an objective lens as an optical system, and a second beam splitter 210b disposed on an optical path incident through the first beam splitter A first iris adjusting device 230a and a first focus adjusting device 240a disposed on the optical path of the first mirror 220a1 and 220b2 for changing the optical path, And a first camera 250a that receives light passing through the first focus adjusting device to acquire a first image.

In addition, a pair of second mirrors (220b1, 220b2) disposed on the optical path incident through the second beam splitter and changing the optical path, and a second iris adjustment An apparatus 230b and a second focus adjusting device 240b, and a second camera 250b for acquiring a second image through which light having passed through the second focus adjusting device is incident.

When the left and right optical paths are made through the objective lens, the left and right light beams from the beam adapter of the video adapter for stereoscopic image acquisition are directed in different directions from the first optical path on the eyepiece lens side and the optical path on the eyepiece lens side , For example, the second optical path is divided into the rear part of the microscope. By sending the optical path to the back side of the microscope through the beam splitter, the stereoscopic imaging system can be integrated into the surgical microscope.

Left and right light incident through the second optical path passes through two mirror devices, an iris adjusting device, and a focus lens for fine focus adjustment, which are disposed on the optical path, respectively, . The obtained left and right image data is transferred to a separate display (not shown), where the image data is converted into a stereoscopic image and displayed.

Light split in the camera direction through the beam splitters 210a and 201b passes through two mirrors provided in respective optical paths from the beam splitter to the left and right cameras. , The distance between the pair of first mirrors and the pair of second mirrors is adjusted so that the right light is incident. Since the size of the mounted camera is larger than the optical axis spacing of the surgical microscope, a sufficient distance can be maintained between the two cameras through a pair of left and right mirrors.

In addition, the pair of mirrors are mounted on an X-Y stage (not shown), and the upper, lower, left, and right positions of the mirror can be finely moved by operating a stationary mirror. Therefore, when the left and right images obtained through the video adapter are distorted, the mirrors mounted on the stage can be finely moved in the x-axis and the y-axis to match images.

Light passing through the mirror is adjusted in brightness through the iris device, and the focus of the image is adjusted through the micro-focus lens. In addition, the correction of the rotational axis of the obtained left and right images can be corrected through rotation of the camera.

Therefore, a stable stereoscopic image can be obtained because there is no deviation of the optical axis between the objective lens and the camera, which causes the displacement of the image by the video adapter device, not only in the case where the movement of the surgical microscope is small, but also in the dynamic case.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, Modified, modified, or improved.

100: Surgical microscope 110: Objective lens
120: zoom lens 130: eyepiece lens
200: video adapter device 210a, 201b: beam splitter
220a1, 220a2, 220b1, 220b2:
230a, 230b: iris adjusting device 240a, 240b: focus adjusting device
250a and 250b:

Claims (8)

An operating microscope composed of an objective lens, a left and right zoom lens module, and left and right ocular lenses,
A pair of first mirrors, a pair of iris adjustment devices, a pair of focus adjustment devices, and a pair of second mirrors, which are disposed between the zoom lens module of the surgical microscope and the eyepiece lens and are provided with a pair of beam splitters, A video adapter device including a camera,
And a display for receiving the image from the pair of cameras and implementing a stereoscopic image,
Wherein each of the beam splitters is branched into a first path for sending light incident through the zoom lens module to the eyepiece lens and a second path for passing to any one of the pair of cameras,
Wherein a pair of mirrors, an iris adjusting device, and a focus adjusting device are sequentially arranged in each of the optical paths to the pair of cameras in the pair of beam splitters.
The method according to claim 1,
Wherein a light path is divided in a direction of a pair of cameras and a pair of left and right ocular lenses through a pair of beam splitters of the video adapter device.
delete The method according to claim 1,
Wherein an interval between the pair of first mirrors and the pair of second mirrors is adjusted so that left and right light is incident on a pair of cameras of the video adapter device, respectively.
The method according to claim 1,
Wherein a pair of the first mirror and the pair of second mirrors of the video adapter device are mounted on the XY stage.
6. The method of claim 5,
And corrects the deviation of the left and right images obtained by the video adapter device by moving the position of the first mirror and the second mirror on the X-axis or the Y-axis mounted on the XY stage, Acquisition system.
The method according to claim 1,
And corrects the rotational axes of the left and right images obtained from the video adapter device through the rotation of the pair of cameras of the video adapter device.
delete

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