JPH07354A - Large intestine endoscope - Google Patents

Abstract

PURPOSE:To provide a stable image diagnosis without generating a disturbance on an image due to the effect of the electric field or the magnetic field, without being reversed backward, and without generating an observation blind shot in an intestine by providing a mechanism switching and connecting an objective side fiber channel and the tip section of an image transmission fiber cable in sequence. CONSTITUTION:Fiberscopes are connected to a fiber channel 8 for switching a plurality of fiberscopes installed in an endoscope main body, respectively. Connection ends of the fiberscopes are connected to a plurality of sockets 9 provided on the fiber channel 8, respectively. Each socket 9 has a conical opening section, and a magnetic substance cylinder 11 is provided inside it. A plug 14 having a slant face to be inserted into the opening section of the socket 9 of the fiber channel 8 is provided with a magnetic substance cylinder 15 and a coil 16 surrounding it, and the plug 14 is provided with a return spring 19 for separating it from the socket 19.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a colonoscope which eliminates observation blind spots in the intestinal tract and enables stable image diagnosis.

[0002]

2. Description of the Related Art Endoscopes used for diagnosing the upper gastrointestinal tract such as the esophagus, stomach, and duodenum are conventionally classified into the front direct view type, the side view type, the oblique view type, and the like. The one in which the observation direction is fixed to the endoscope shaft has been used. However, in order to make a reliable diagnosis, it is necessary to observe the entire inside of the target internal organ canal. Therefore, there is a part that is oblique-viewing type and changes the angle of the prism provided at the tip to change the observation area in a certain range so that a wider area can be observed. However, there are problems that it is difficult to observe in detail due to the structural limitation of the above, and a rigid main body is formed at the tip of the endoscope.

On the other hand, since most endoscopes used as colonoscopes are of the front direct-viewing type, the endoscope main body at the tip of the endoscope is bent or extended, It is designed to observe the inside of a large intestinal lumen. However, although the diameter of the endoscope main body in a colonoscope is relatively large, it is usually about the same size up to the manual operation part of the shaft. , There is no method other than strongly bending and reversing the endoscope body,
In the large intestine, which has many constrictions and many sharply curved sections, there are only a limited number of positions where the endoscope body can be observed by bending and reversing the endoscope body. It is unavoidable that there are many endoscopic observation blind spots in the large intestine as there is a risk of damage and in fact only the rectum and some other parts are possible. Therefore, performing an enema X-ray contrast examination in advance
It was essential to not miss lesions in the large intestine.

Recently, the improvement of the operability for guiding the endoscope to the deep insertion into the intestinal tract and the improvement of the image quality of the endoscopic image are mainly excellent, so that the conventional forward direct-view type 1-channel colon fiberscope is used. Instead, the conversion to 1-channel front-view direct-viewing type colon electronic endoscope is spreading and spreading. Even if the above-mentioned large intestine electronic endoscope is used, it is not easy to reach the deepest ileocecal region through the intestinal tract, which has many bends, and the operation skill of the endoscope and the subject's long time are required. Pain is unavoidable, and it is difficult to bend the endoscope body at the distal end backward.

As an invention for solving the above problems, Japanese Patent No.
There is a "digestive tract diagnostic device" of No. 299516. In the above invention, the CCD endoscope is guided into the intestinal tract by the magnetic force using superconductivity, and the space due to the difference between the diameter of the endoscope main body and the diameter of the shaft is used to provide a front CCD camera and three CCD cameras. A rear CCD camera is provided so that the entire intestine can be diagnosed.

[0006]

In the above-mentioned prior art, a plurality of CCD cameras are installed in the front-rear direction of the endoscope main body. This is because the shafts are transmitted by transmitting each image as an electric signal to the monitor. In the space created by the difference between the diameter of the shaft and the diameter of the endoscope body,
A rear CCD camera is provided so that the rear of the endoscope main body can be observed so that the colonoscope can perform intestinal diagnosis with almost no blind spot. However, a superconducting magnetic field is used to guide the endoscope body in the bent intestinal tract. Therefore, the influence of passing the magnetic field or the large-capacity current, or the residual magnetism after the guidance of the endoscope main body affects the CCD camera or the electric wire connected to the CCD, thereby disturbing the observed image. There is concern that it may occur. This concern is alleviated by using a fiberscope instead of a CCD camera and delivering it to the monitor with a fiber cable, but traditionally, as the number of fiberscopes increases, the diameter of the shaft to be stored increases due to the increase in fiber cables. However, there is a problem that a plurality of rearward facing fiberscopes cannot be arranged in order to observe the rear of the endoscope body.

The present invention provides a colonoscope capable of stable image diagnosis without causing disorder in an image due to the influence of an electric field or a magnetic field, without causing a backward inversion, and without causing an observation blind spot in the intestinal tract. Aim to get.

[0008]

The object is to provide an endoscope main body having a fiberscope and a colonoscope for displaying an image of the fiberscope on a television monitor via a fiber cable. Objective fiber channel in which the connection end of each fiberscope is arranged in an endoscope main body including at least one fiberscope and a plurality of fiberscopes opening rearward, and a shaft of the endoscope. This is achieved by providing a mechanism for sequentially switching and connecting the tip of the image transmission fiber cable that is inserted through the cable.

[0009]

In the colonoscope according to the present invention, the objective-side fiber channel in which the connection ends of a plurality of fiberscopes are respectively arranged inside the endoscope main body and the tip portion of the fiber cable for image transmission are sequentially switched. Since a mechanism for connecting is provided, even if there is only one fiber cable for image transmission that is inserted through the shaft cable of the endoscope,
Since the images of the plurality of fiberscopes can be delivered to the monitor by sequentially switching, the outer diameter of the shaft cable can be reduced despite the number of fiberscopes provided in the endoscope body. Therefore, a space is created between the diameter of the endoscope body and the diameter of the shaft cable due to the difference. Therefore, it is possible to install a plurality of fiberscopes for rearward observation and illumination light sources respectively corresponding to the fiberscopes in the space behind the endoscope body.

As described above, the colonoscope of the present invention is provided with the fiber channel in the endoscope main body, and the fiber cable and the fiber cable which are not easily affected by the magnetic field and the electric field are connected by switching, so that the shaft cable is connected. The fiberscope for the rear can be installed together with the light source for illumination in the space due to the difference in the diameter of the endoscope body, and a stable monitor image without disturbance is obtained without causing blind spots for intestinal observation. be able to.

[0011]

Embodiments of the present invention will now be described with reference to the drawings. FIG. 1 is a diagram showing an outline of a fiber channel for switching a fiber scope in an endoscope main body in an embodiment of a colonoscope according to the present invention, and FIG. 2 is a local sectional view showing a coupled state of the fiber channel, FIG. FIG. 4 is a diagram showing an example of a switching mechanism of an optical fiber for illumination, FIG. 4 is a diagram showing an appearance of a colonoscope body, (a) is a front view, (b) is a front view, and (c).
Is a rear view.

The colonoscope according to the present invention comprises an endoscope body 1 made of a flexible restoring material such as synthetic rubber as shown in FIG. 4, and a hand-operated portion for operating the endoscope body 1 ( A shaft cable 2 for connecting with (not shown) and a television monitor (not shown) for displaying an observation result are provided. On the front surface of the endoscope body 1, as shown in FIG. 4B, a light 4 composed of an optical fiber for illumination around the fiberscope 3 and an opening 5 such as a water supply port, an air supply port, a suction port, or the like. At the same time, a conduit port 6 for performing forceps operation is provided, and a plurality of fiberscopes 3 for illumination are provided on the back surface of the endoscope body 1 so as to surround the shaft cable 2 as a center. It has a light 4 and so on. In addition, a balloon 7 is provided on the outer periphery of the endoscope body 1 to expand and contract by feeding air to hold the endoscope body 1 at an arbitrary position in the intestinal tract.

The endoscope body 1 shown in the embodiment is provided with a total of four fiberscopes 3 on the front surface and the back surface. These fiberscopes 3 are installed in the endoscope body. Are each connected to a fiber channel. The fiber channel is shown schematically in FIG. The connection end of each fiberscope is connected to a plurality of sockets 9 provided in the fiber channel 8. As shown in FIG. 2, each of the sockets 9 has a mortar-shaped opening, and inside the opening, there is provided a magnetic susceptor cylinder 11 in which an electric wire 10 is wound in a coil shape. An optical fiber 13 of the above fiberscope with a lens 12 is attached. The plug 14 having an inclined surface that fits into the opening of the socket 9 of the fiber channel 8 is provided with the magnetic cylinder 15 and has the coil 16 surrounding the cylinder 15, and is connected to the television camera. The tip of an optical image transmission fiber cable 17 that passes through the shaft cable 2 is fixed in the magnetically magnetic cylinder 15 together with the lens 18, and the plug 14 is attached to the plug 14 from the socket 9. A return spring 19 for pulling apart is provided.

In the fiber channel 8 having the above structure, the magnetic force generated by energizing the coil 10 of the socket 9 to which the desired observation fiberscope 13 is connected is
As shown in FIG. 2, the optical fibers are connected to each other by attracting each other with the magnetic force generated by the coil 16 of the plug 14 that is energized at the same time, and the image signal from the fiberscope 13 is transferred to the fiber cable 17 for transmitting the optical image. And display it on the television monitor via the television camera. When the coils 10 and 16 are de-energized, the plug 14 is separated from the socket 9 by the elasticity of the return spring 19. By switching each coil of the socket 9 and energizing it in this manner, each observation image in the intestinal tract in any direction in front of or behind the endoscope can be immediately switched and displayed on the television monitor. By installing at least three fiberscopes on the back surface of the endoscope body 1, images of almost the entire intestinal tract are displayed on the monitor as divided images without being obstructed by the fiber cable 17 for optical image transmission. Since it can be displayed, it is possible to observe and block the entire intestinal tract without blind spots.

Although the switching of the fiberscope 3 and the switching of the illumination optical fiber 4 must be performed, this switching may be simpler than the switching of the optical image transmission, and an example of the concept is shown in FIG. In the figure, reference numeral 20 denotes an optical fiber guided from the light source into the endoscope main body 1, which is inserted into the optical path distributor 23 so that the reflecting mirror 21 provided at the tip can change the optical path to a right angle for irradiation. The optical path distributor 23 is connected to the respective illumination optical fibers 4 corresponding to the respective fiber scopes 3, and the optical paths are switched to the respective illumination optical fibers 22 by the movement of the reflecting mirror 21 for use. Although the above example only shows a method by simple mechanical means, a conventional optical fiber such as a mechanical or electronic changeover switch or an optical coupler or a directional coupler using a semipermeable membrane is used. Optical path switching means can be used.

The switching of the illuminating optical fiber 4 is performed in conjunction with the switching of the fiberscope 3, and at the same time as illuminating each part of the intestine, the fiberscope is connected to a television camera, and each illuminating optical fiber and fiber are connected. By sequentially switching the scopes, it is possible to clearly obtain monitor images of each part of the intestine without blind spots.

[0017]

As described above, the colonoscope according to the present invention includes an endoscope main body having a fiberscope and a colonoscope for displaying an image of the fiberscope on a television monitor via a fiber cable. In, in the endoscope body having at least one fiberscope opening to the front, and a plurality of fiberscope opening to the rear, the objective-side fiber channel in which the connection end of each fiberscope is arranged, By providing a mechanism that sequentially switches and connects the tip of the image transmission fiber cable that is inserted through the shaft cable of the endoscope, the optical signals of multiple fiberscopes are sequentially switched to and transmitted to at least one fiber cable. However, since it can be delivered to a television camera and displayed as an image on each monitor, the endoscope body and the fiber cable can be Since a sufficient difference in diameter with the shaft cable through which the endoscope is inserted and a plurality of fiberscopes for observing the rear part of the endoscope main body can be installed in the space created by the above difference, blind spots are formed on almost the entire inner wall of the intestinal tract. It is possible to obtain a colonoscope capable of observing and blocking without observation.

[Brief description of drawings]

FIG. 1 is a diagram schematically showing a fiber channel for switching a fiber scope in an endoscope main body in an embodiment of a colonoscope according to the present invention.

FIG. 2 is a partial cross-sectional view showing a combined state of the fiber channels.

FIG. 3 is a diagram showing an example of a switching mechanism of an optical fiber for illumination.

4A and 4B are views showing the outer appearance of a colonoscope main body, in which FIG. 4A is a front view, FIG. 4B is a front view, and FIG.

[Explanation of symbols]

1 Endoscope body 3 Fiberscope 8 Fiber channel 17 Image transmission fiber cable

Claims (1)

[Claims] 1. An endoscope main body having a fiberscope,
In a colonoscope that displays the image of the fiberscope on a television monitor via a fiber cable,
At least one fiberscope opening forward,
In the endoscope main body provided with a plurality of fiberscopes that open to the rear, the objective-side fiber channel in which the connection end of each fiberscope is arranged, and the image transmission fiber that is inserted through the shaft cable of the endoscope A colonoscope, which is provided with a mechanism for sequentially switching and connecting the tip of a cable.