JP4567343B2 - Endoscope guide and endoscope system - Google Patents

Description

  The present invention relates to an endoscope guide that is attached to the tip of an endoscope to facilitate observation in a body cavity such as the oral cavity, esophageal tube, large intestine, rectum, and vagina, and the endoscope guide. The present invention relates to an endoscope system used.

  An endoscope is used to observe body cavities such as the oral cavity, esophageal tube, rectum, and vagina. When inserting an endoscope into a body cavity, there is one that attaches a cap having a smoothly tapering shape to the tip to facilitate insertion into the body cavity (for example, see Patent Document 1).

  However, the endoscope with the transparent cap attached to the tip in this way observes the state of the body cavity through the transparent cap. Therefore, there is a problem that observation becomes difficult when the transparent cap becomes dirty. In particular, when observing the large intestine or the vagina, it becomes dirty from the tip due to feces or secretions, making observation difficult.

  In addition, with a tapered shape as described above, for example, when an endoscope is inserted into a body cavity that is normally closed with muscles such as the large intestine and vagina, the field of view seen from the endoscope becomes very narrow.

  In addition, in order to eliminate the contamination of the endoscope tip, an air supply nozzle and a water supply nozzle are provided toward the endoscope tip.First, water is supplied to wash off mucus from the endoscope tip, and then There is one that blows away water droplets attached to the surface of the observation window by supplying air (for example, see Patent Document 2).

However, with the above configuration, there is a problem that the structure of the endoscope becomes complicated and the manufacturing cost increases.
JP 11-56753 A (paragraph “0037”, etc.) JP 2001-258824 A (paragraphs “0009”, “0011”, etc.)

  The present invention has been made in view of the above circumstances, and can prevent the contamination of the endoscope tip when inserted into a body cavity, and can expand a closed muscular body cavity, thereby providing an endoscope with a simple structure. An object is to provide an endoscope guide that can be applied and manufactured at low cost, and an endoscope system using the endoscope guide.

  The endoscope guide of the present invention can be attached to an endoscope that captures an image in a body cavity from the tip of a flexible linear image capturing device, and transmits the captured image to a display device for display. An endoscope guide for guiding the image capturing device in a body cavity, the guide having at least a length for inserting the image capturing device into the body cavity, wherein the image capturing device is inserted; A cylindrical tube portion attached to the distal end of the tubular portion and formed in a spherical shape, a hollow is formed at the distal end of the spherical body cavity insertion side, and the distal end of the video capturing device is placed at the bottom of the hollow And a tip portion that is positioned and exposed.

  The endoscope system of the present invention captures an image in a body cavity from the distal end, transmits the captured image to the proximal end, and is connected to the proximal end of the image capturing device for transmission. An endoscope including the display device that displays the image, and an endoscope guide that is attachable to a distal end of the endoscope and guides the image capturing device in a body cavity. The endoscope guide has at least a length for inserting the image capturing device into the body cavity, and a cylindrical tube portion through which the image capturing device is inserted, and a tip of the tube portion And a tip formed at the tip of the spherical body cavity insertion side, and a tip that positions and exposes the image capturing surface of the image capturing device at the bottom of the recess. .

  The endoscope guide has a recess formed at the distal end of the distal end portion on the body cavity insertion side, and the distal end of the image capturing device is positioned and exposed at the bottom of the recess. Therefore, even if it is inserted into the body cavity from the spherical tip, the image capturing device does not come into direct contact with the living body in the body cavity and is not contaminated. Even when the body cavity is closed by muscles, the body cavity can be expanded in a tapered shape by the spherical tip. Here, since the image capturing device is arranged not at the tip of the sphere but at the bottom of the dent of the sphere, the body cavity in a sufficiently expanded state can be observed. In addition, the endoscope guide does not require a special configuration such as a cleaning means in order to prevent contamination of the tip of the image capturing device. Therefore, it can be made inexpensively. Since the endoscope guide can be attached to the endoscope, it can be kept clean by replacement.

  According to the endoscope system of the present invention, a body cavity is inserted from a spherical tip. The tip is formed with a dent at the tip on the body cavity insertion side, and the tip of the image capturing device is positioned and exposed at the bottom of the dent. Therefore, the tip of the image capturing device does not come into direct contact with the living body in the body cavity and is not contaminated. Even when the body cavity is closed by muscles, the body cavity can be expanded in a tapered shape by the spherical tip. Here, since the image capturing device is arranged not at the tip of the sphere but at the bottom of the dent of the sphere, the body cavity in a sufficiently expanded state can be observed. In addition, the endoscope guide does not require a special configuration such as a cleaning means in order to prevent contamination of the tip of the image capturing device. Therefore, it can be made inexpensively. Since the endoscope guide can be attached to the endoscope, it can be kept clean by replacement.

  Hereinafter, an endoscope guide and an endoscope system of the present invention will be described with reference to the drawings.

  FIG. 1 is a perspective view of an endoscope system, and FIG. 2 is a perspective view of the endoscope.

  The endoscope system 10 includes an endoscope 20 and an endoscope guide 30. In the present specification, the “tip” refers to the side where the endoscope 20 is inserted into the body cavity, and the “proximal end” refers to the side where the image of the body cavity is confirmed.

  The endoscope guide 30 is formed in a cylindrical shape and can be attached to the distal end of the endoscope 20. FIG. 1 shows a state in which the endoscope guide 30 is attached to the endoscope 20. When the endoscope guide 30 is removed from the endoscope 20, the result is as shown in FIG.

  The endoscope 20 and the endoscope guide 30 will be described in detail.

(Endoscope 20)
The endoscope 20 used in this embodiment is an endoscope having a small function and a simple structure.

  The endoscope 20 includes a video capturing device 40 and a display device 50.

  The image capturing device 40 is formed in a long shape, captures an image of an object from the distal end, and transmits it to the display device 50 connected to the proximal end. The display device 50 enlarges and displays the video captured by the video capture device 40.

(Video capture device 40)
FIG. 3 is a cross-sectional view of the tip of the image capturing device.

  As described above, the video capturing device 40 captures the video of the object at the tip, and transmits the captured video to the display device 50.

  As shown in FIG. 3, the entire circumference of the video capturing device 40 is protected by a protective tube 41. The protective tube 41 includes a socket part 42 and a plastic tube part 43.

  The socket part 42 is fitted to the tip of the plastic tube part 43. The plastic tube portion 43 is a tubular member formed of plastic and has flexibility over the entire length. Instead of the plastic tube portion 43, a rubber tube formed of an elastic material such as rubber may be used.

  An image fiber 44 extends in the protective tube 41 as means for transmitting an image. The image fiber 44 is provided with an objective imaging lens 45 at the tip as means for capturing an image. The imaging lens 45 is exposed from the socket part 42 and captures an image of the observation object. The captured image is transmitted to the display device 50 through the long image fiber 44.

  An annealed copper wire 46 is laid along the image fiber 44 and fastened with a tape 461. The range in which the annealed copper wire 46 is fastened may be substantially the entire length of the image fiber 44, or may be a predetermined range such as from the vicinity of the tip of the image fiber 44 to approximately half of the entire length. Metals other than the annealed copper wire 46 may be used to maintain the shape of the image fiber.

  The socket part 42 is formed of a transparent member, for example, transparent plastic, and is fitted to the tip of the plastic tube part 43. The socket part 42 holds the light source 47, the imaging lens 45 and the image fiber 44. Here, the distal end of the socket portion 42, that is, the distal end of the protective tube 41 protrudes further toward the distal end side than the imaging lens 45 as shown in FIG. 3.

  The light source 47 is, for example, a light emitting diode (LED) or an incandescent lamp. The light source 47 is connected to two power lines 48 extending from the display unit. A current is supplied from the display unit through the two power lines 48, and the light source 47 emits light. The light source 47 is not exposed as shown in FIG. However, since the socket part 42 is formed of a transparent body, the light of the light source 47 is irradiated to the outside through the thin wall 420.

  The plastic tube portion 43 is connected to the display device 50.

(Display device 50)
FIG. 4 is a cross-sectional view of the display device.

  The display device 50 includes an eyepiece unit 51 and a display main body 52.

  The eyepiece 51 includes two plano-convex lenses 511 and 512. The plano-convex lens 511 is viewed from the plane side of the plano-convex lens 511 through the shade 513 when the user views the image to be observed. The shade 513 makes a shadow around the plano-convex lens 511 and darkens it so that the image of the observation target reflected on the plano-convex lens 511 is easy to see. The plano-convex lens 512 is arranged so that the convex surface side faces the plano-convex lens 511 with a small gap. In the eyepiece 51, a screw hole 514 is formed on the plane side of the plano-convex lens 512.

  The display main body 52 includes a battery 521 for supplying power to the light source 47, a switch 522 for connecting the battery 521 and the light source 47, and an aspheric lens 523 for enlarging an image transmitted by the image fiber 44. Is provided. The battery 521 supplies power to the light source 47 when the switch 522 is slid (ON) and the power line 48 is connected to the conductor 525 via the metal fitting 524. The aspheric lens 523 is disposed in the vicinity of the end surface of the image fiber 44 that has passed through the protective tube 41. The positions of the end face of the image fiber 44 and the aspheric lens 523 are determined by a wall portion 527 formed on the inner wall of the display main body 52.

  Further, the display main body 52 has a screw portion 526 that is screwed into the screw hole 514.

  The screw part 526 and the screw hole 514 are screwed together, and the eyepiece part 51 and the display main body 52 are integrated. The distance between the aspherical lens 523 and the plano-convex lens 512 can be adjusted by adjusting the rate at which the screw portion 526 is screwed. Therefore, even if the distance between the lenses in the display device 50 changes slightly due to a temperature change or the like, the lens can be easily adjusted manually.

(Endoscope guide 30)
FIG. 5 is a cross-sectional view of the endoscope guide, FIG. 6 is a diagram showing a state in which the endoscope guide is mounted on the image capturing device, FIG. 7 is a front view of the distal end portion of the endoscope guide, and FIG. It is a rear view of the front-end | tip part of a mirror guide.

  As shown in FIG. 5, the endoscope guide 30 is attachable to the distal end of the endoscope 20, that is, the distal end of the video capturing device 40. The endoscope guide 30 is attached to the distal end of the video capturing device 40 when the video capturing device 40 is inserted into the body cavity, and plays a role of guiding the inside of the body cavity.

  As shown in FIG. 5, the endoscope guide 30 includes a cylindrical tubular portion 31 and a distal end portion 37 attached to the distal end of the tubular portion 31.

(Cylinder part 31)
The cylindrical portion 31 has the video capturing device 40 inserted therein. The tube portion 31 includes an operation handle portion 33 on the proximal end side and a tube portion 35 attached to the distal end side of the operation handle portion 33.

  The operation handle portion 33 has a handle portion 331 adjacent to the tube portion 35 as insertion amount limiting means for limiting the insertion amount of the endoscope guide 30. The handle portion 331 is formed wider than the tube portion 35.

  Further, as shown in FIG. 6, the operation handle 33 has a base end 332 divided into two by a notch 333.

  The base end 332 that is divided into two is formed with a convex portion 334 that gradually protrudes outward in the radial direction of the cylindrical portion 31 from the distal end side toward the proximal end side. The convex portion 334 sandwiches and holds the plastic tube portion 43 of the video capturing device 40 by the action of a locking member 39 described later.

  The locking member 39 is a ring-shaped member. The locking member 39 is formed such that the distal end side has a smaller diameter than the proximal end side. The locking part 39 is disposed on the outer periphery in the vicinity of the base end 332 of the operation handle 33. As shown in FIGS. 1 and 5, the locking member 39 has a handle 391 protruding substantially at the center.

  The locking member 39 is slidable on the outer periphery of the operation handle portion 33. When the locking member 39 is slid in the direction indicated by the thin arrow in FIG. 6 with the handle 391, the locking member 39 matches the base end 332 of the operation handle portion 33 while pinching the convex portion 334. The locking member 39 is firmly fixed by the force that the convex portion 334 tries to return to the original position. In this state, as shown in FIG. 5, the convex portion 334 is pushed toward the center of the cylindrical portion 31 by the locking member 39. Accordingly, the diameter of the operation handle portion 33 at the base end 332 becomes smaller. As a result, since the convex portion 334 is inserted into the plastic tube portion 43 of the video capturing device 40, the plastic tube portion 43 is prevented from falling off the endoscope guide 30.

  The tube part 35 of the cylinder part 31 has a length at least for inserting the image capturing device 40 into the body cavity. The tube part 35 is made of silicon, for example. The length and diameter of the tube portion 35 are appropriately changed according to the depth and size of the body cavity to be observed. When observing the inside of the vagina, for example, the length of the tube part 35 is 70 mm.

(Tip 37)
The tip portion 37 is attached to the tip of the cylindrical portion 31 as shown in FIG. For example, when the inside of the vagina is observed, the distal end portion 37 is formed in a spherical shape having a diameter of about 15 mm to 40 mm. The tip portion 37 has a recess 371 having a depth of 1 to 6 mm, for example, at the tip thereof. The tip of the image capturing device 40 is exposed at the bottom of the recess 371. That is, as for the front-end | tip part 37, the bottom of the hollow 371 is opened, and as shown in FIG. 7, the front-end | tip of the image | video capture device 40 is exposed from this opening. Here, the diameter of the opening is formed smaller than the diameter of the tip of the video capturing device 40. Therefore, the video capturing device 40 does not penetrate the distal end portion 37.

  The distal end portion 37 has a groove 372 formed on the outer periphery from the recess 371 toward the proximal end side. The groove 372 has a width of about 2 mm to 5 mm and a depth of about 2 mm to 5 mm, for example.

  Further, as shown in FIG. 8, the distal end portion 37 has a plurality of hole portions 373 when viewed from the proximal end side. The plurality of hole portions 373 communicate with a cavity inside the distal end portion 37.

  In the endoscope guide 30, the size and length of the cylindrical portion 31 and the distal end portion 37 are appropriately changed according to the application and the age and body shape of the person to be used. For example, when observing from the anus to the rectum, an endoscope guide 30 smaller than that for observing the inside of the vagina is usually used.

(Function)
Next, the operation of the endoscope system 10 will be described.

  First, the user of the endoscope system 10 inserts the distal end of the video capturing device 40 of the endoscope 20 into the endoscope guide 30. When the distal end of the video capturing device 40 abuts against the recess 371 of the distal end portion 37 of the endoscope guide 30, the user pulls and moves the locking member 39 toward the proximal end side. Then, as described above, the convex portion 334 of the operation handle portion 33 is pushed inward by the locking member 39. The locking member 39 pushed inward presses and locks the plastic tube portion 43 of the endoscope guide 30. Thereby, the endoscope guide 30 does not fall off the endoscope 20.

  Next, the user turns on the switch 522 of the display device 50. Then, the light source 47 at the tip of the image capturing device 40 is supplied with current and emits light. The user holds the operation handle portion 33 of the endoscope guide 30 and inserts the distal end portion 37 into the body cavity to be observed. Here, if a lubricant such as silicone oil is applied in advance to a body cavity such as the vagina that is closed with musculature, the insertion of the endoscope guide 30 becomes easy. Below, the case where the inside of a vagina is observed as a body cavity is demonstrated.

  The user applies force to the operation handle 33 and pushes the video capture device 40 into the vagina together with the endoscope guide 30. The secretory fluid secreted in the vagina passes through the groove 372 on the outer periphery of the endoscope guide 30 and flows behind the endoscope guide 30. Therefore, the secretion fluid does not accumulate in the recess 371 at the tip of the endoscope guide 30 and the endoscope 20 is not contaminated.

  As a result, the capturing of the image by the image capturing device 40 is not disturbed by the secretory fluid. The video captured from the imaging lens 45 is transmitted to the display device 50 through the image fiber 44. The user can clearly observe the inside of the vagina with the display device 50. Since the distal end portion 37 is spherical and the image capturing device 40 is disposed at the bottom of the concave portion of the distal end portion 37, the inside of the vagina expanded in a tapered shape can be observed. Therefore, it is possible to easily observe a portion that is difficult to see in the vagina closed with muscles.

  When the observation is finished, the user turns off the switch 522 of the display device 50 and removes the endoscope guide 30 from the vagina. Then, the locking member 39 of the cylindrical portion 31 of the endoscope guide 30 is slid to the distal end side. Thereby, the fixing of the plastic tube portion 43 by the locking member 39 is released. When the fixation is released, the endoscope guide 30 can be easily detached from the endoscope 20.

  The user can clean and disinfect the endoscope guide 30 for the next use. Here, since the endoscope guide 30 is penetrated from the operation handle portion 33 to the distal end portion 37 and a plurality of hole portions 373 are formed behind the distal end portion 37, the endoscope guide 30. After washing the inside, water does not collect easily and is easy to dry. The endoscope guide 30 may be disposable. In this case, the user cleans the tip of the endoscope 20 and discards the endoscope guide 30 in preparation for the next use. Next time, a new endoscope guide 30 is attached to the endoscope 20 and used.

  As described above, according to the endoscope guide 30 and the endoscope system 10 of the present invention, the depression 371 is formed on the body cavity insertion side of the distal end portion 37, and the distal end of the image capturing device 40 is formed at the bottom of the depression 371. Is positioned and exposed. Therefore, even if it is inserted into the body cavity from the spherical tip portion 37, the image capturing device 40 does not come into direct contact with the living body in the body cavity and is not contaminated.

  In addition, the body cavity can be expanded in a tapered shape by the spherical tip portion 37 even when the body cavity is closed by muscles as in the state in the body cavity shown in FIG. Here, since the image capturing device 40 is disposed not at the tip of the sphere but at the bottom of the dent 371 of the sphere, as shown in FIG. The part 61 that is sufficiently expanded can also be observed.

  In addition, the endoscope guide 30 does not require a special configuration such as a cleaning unit in order to prevent contamination of the tip of the video capturing device 40. Therefore, it can be made inexpensively. On the other hand, since the groove 372 is formed in the distal end portion 37 of the endoscope guide 30, the secretory fluid or the like in the body cavity is caused to flow from the groove 372 to the rear of the distal end portion 37, and the secretion fluid or the like is in the recess 371. There is no accumulation. Therefore, the field of view by the video capturing device 40 can be kept good.

  Since the endoscope guide 30 can be attached to the endoscope 20, cleanliness can be maintained by replacing the endoscope guide 30 as disposable.

  Since the depth of the recess 371 is 1 to 6 mm, the tip of the video capturing device 40 is not contaminated. Since the distal end of the image capturing device 40 is located on the proximal side from the distal end of the distal end portion 37, a wide viewing angle can be secured.

  Furthermore, since the handle portion 331 is provided as the insertion amount limiting means in the cylindrical portion 31, the insertion amount of the endoscope guide is limited by the handle portion 331. Therefore, the endoscope guide 30 does not enter the body cavity too much, and the inside of the body cavity is not damaged by the endoscope guide 30.

  In the above-described embodiment, the tube portion 35 made of silicon is provided on the cylindrical portion 31 of the endoscope guide 30. Such a tube part 35 can be bent and deformed to some extent. Therefore, the shape of the tube portion 35 of the endoscope guide 30 can also be deformed by deforming the shape of the image capturing device 40 before and after mounting the image capturing device 40 on the endoscope guide 30.

  Here, since the annealed copper wire is incorporated in the image capturing device 40 as described above, the deformed shape of the image capturing device 40 is maintained. Therefore, the tube portion 35 of the endoscope guide 30 in which the video capturing device 40 is inserted is also maintained in the same shape as the deformed shape of the video capturing device 40. In this way, since the tube portion 35 of the endoscope guide 30 can be deformed and the deformed shape can be maintained, the endoscope guide 30 can be deformed to a desired location within the body cavity without causing a burden on the human body. Can be observed.

  Since the tube portion 35 of the endoscope guide 30 can be deformed, the endoscope guide 30 can be deformed by operating the wide handle portion 331 even after the endoscope guide 30 is inserted into the body cavity. The shape of the tube part 35 can be deformed. For example, when the wide handle portion 331 is tilted in a certain direction, the tube portion 35 warps. Then, the distal end portion 37 faces in the direction opposite to the direction in which the handle portion 331 is tilted. Further, by operating the handle portion 331, the distal end portion 37 can be rotated with the side wall of the body cavity facing. When the distal end portion 37 is rotated toward the side wall, the distal end of the image capturing device 40, that is, the imaging lens 45 is also rotated. Therefore, the user can observe the entire circumference in the body cavity.

  Moreover, although the said embodiment demonstrated the case where the bottom of the hollow 371 of the front-end | tip part 37 was opened, it is not limited to this. A partition plate formed of a transparent body can be provided at the bottom of the recess 371 of the distal end portion 37 instead of the opening. The body cavity and the image capturing device 40 are isolated by the partition plate. Even when there is a large amount of bleeding or endocrine fluid in the body cavity and blood or the like does not flow only through the groove 372 on the outer periphery of the endoscope guide 30, and blood or the like accumulates in the recess 371, the image capturing device 40 is contaminated. Not.

  Moreover, although the said embodiment demonstrated the case where the hollow 371 was formed in the forefront of the front-end | tip part 37, it is not limited to this. A recess is provided in a direction oblique to the front end of the distal end portion 37, and the distal end of the image capturing device 40 can be disposed at the bottom of the recess. A slight side of the body cavity can be observed.

  In the above-described embodiment, an example in which an image is captured by the imaging lens 25 and an image is transmitted by the image fiber 44 has been described. However, the present invention is not limited to this. Instead of these, a fiberscope provided with an image microlens at the tip may be used. Alternatively, a CCD camera or a CMOS camera may be used.

  When a CCD camera or a CMOS camera is used, a television or the like can be used instead of the display device 50 to display an image on the television screen. When displaying an image on a television screen, the configuration of the endoscope 20 is changed as shown in FIG.

  FIG. 10 is a perspective view showing a modification example of the endoscope.

  In the case of the endoscope 70 shown in FIG. 10, a signal conversion module 72 is provided at the base end of the video capturing device 71. The signal conversion module 72 converts the captured image inside the body cavity into screen display data. The converted video data is connected to the television apparatus through the connector 73. Thus, by providing the signal conversion module 72, the user can confirm the image in the body cavity on the television screen.

It is a perspective view of an endoscope system. It is a perspective view of an endoscope. It is sectional drawing of the front-end | tip of an image | video capture device. It is sectional drawing of a display apparatus. It is sectional drawing of an endoscope guide. It is a figure which shows a mode that an endoscope guide is mounted | worn with an image | video capture device. It is a front view of the front-end | tip part of an endoscope guide. It is a rear view of the front-end | tip part of an endoscope guide. It is a figure which shows the mode in a body cavity. It is a perspective view which shows the example of a change of an endoscope.

Explanation of symbols

10. Endoscope system,
20 ... endoscope,
25. Imaging lens,
30 ... Endoscopy guide,
31 ... Cylinder part,
33 ... Operation handle,
35 ... Tube part,
37 ... the tip,
39 ... locking member,
40. Image capturing device,
41 ... Protective tube,
42 ... socket part,
43 ... plastic tube,
44 ... Image fiber,
45. Imaging lens,
46 ... Annealed copper wire,
47. Light source,
48 ... Power line,
50. Display device,
70: Endoscope,
71 ... Video capture device,
72 ... Signal conversion module,
73 ... Connector,
331 ... handle part,
334 ... convex portion,
372 ... a groove.

Claims (12)

The image can be attached to an endoscope that captures an image in a body cavity from the tip of a flexible linear image capture device, transmits the captured image to a display device, and displays the image in the body cavity. An endoscope guide for guiding the device,
At least the length of the video capturing device inserted into the body cavity, a cylindrical tube portion through which the video capturing device is inserted,
A tip attached to the tip of the cylindrical portion and formed in a spherical shape, a recess is formed at the tip of the spherical body cavity insertion side, and a tip that positions and exposes the tip of the video capturing device at the bottom of the recess;
Have
An endoscope guide, wherein a groove is formed on an outer periphery of the distal end portion so as to be connected to the depression and toward the proximal end side. The endoscope guide according to claim 1 , wherein the tip portion has a depth of 1 to 6 mm. The endoscope according to claim 1 or 2 , wherein a transparent partition plate is provided at a bottom of the recess, and the image capturing device and the body cavity are isolated by the partition plate. guide. A ring-shaped locking member disposed on the outer periphery in the vicinity of the proximal end of the cylindrical portion;
The cylindrical portion has a proximal end divided into a plurality of portions, and a convex portion is formed at the divided proximal end so as to gradually protrude outward from the distal end side of the video capturing device toward the proximal end side. And
After the video capturing device is inserted until it hits the bottom of the dent of the distal end portion, the locking member is slid to the proximal end side of the video capturing device, so that the convex portion of the cylindrical portion is The endoscope guide according to any one of claims 1 to 3 , wherein the endoscope is pushed in a central direction and the endoscope is held by the convex portion. The endoscope guide according to any one of claims 1 to 4 , wherein an insertion amount limiting means for limiting an insertion amount of the distal end portion and the cylindrical portion into a body cavity is provided in the cylindrical portion. The endoscope guide according to claim 5 , wherein the cylindrical portion has flexibility between the insertion amount limiting means and the distal end portion. A linear image capturing device that captures an image in a body cavity from the distal end and transmits the captured image to the proximal end, and a display device that is connected to the proximal end of the image capturing device and displays the transmitted image An endoscope including:
An endoscope guide that is attachable to the distal end of the endoscope and guides the video capturing device in a body cavity;
Have
The endoscope guide is
At least the length of the video capturing device inserted into the body cavity, a cylindrical tube portion through which the video capturing device is inserted,
A tip that is attached to the tip of the cylindrical portion and is formed in a spherical shape, a recess is formed at the tip of the spherical body cavity insertion side, and the image capturing surface of the image capturing device is positioned and exposed at the bottom of the recess And
Including
An endoscope system in which the distal end portion of the endoscope guide is formed on the outer periphery with a groove that is connected to the depression and toward the proximal end side. The endoscope system according to claim 7 , wherein the depth of the recess is 1 to 6 mm at the distal end portion of the endoscope guide. The endoscope guide further includes a ring-shaped locking member disposed on the outer periphery in the vicinity of the proximal end of the cylindrical portion,
The image capturing device further includes a protective tube that covers the outer periphery and protects the inside,
The cylindrical portion has a proximal end divided into a plurality of portions, and a convex portion is formed at the divided proximal end so as to gradually protrude outward from the distal end side of the video capturing device toward the proximal end side. And
The locking member is slid to the proximal end side of the image capturing device after being inserted into the endoscope guide until the protective tube hits the bottom of the recess of the distal end portion, whereby the convex portion is The endoscope system according to claim 7 or 8 , wherein the endoscope is pushed in the center direction of the tube portion and the protection tube is sandwiched. The endoscope system according to any one of claims 7 to 9 , wherein an insertion amount limiting means for limiting an insertion amount of the distal end portion and the cylindrical portion into a body cavity is provided in the cylindrical portion. The endoscope system according to claim 10 , wherein the cylindrical portion has flexibility between the insertion amount limiting means and the distal end portion. The endoscope is
A signal conversion module for converting the image in the body cavity captured by the image capturing device into a signal for television display;
A terminal for outputting the converted signal to the TV;
Further including
The endoscope system according to any one of claims 7 to 11 , wherein the signal conversion module is connected to a base end of the video capturing means instead of the display device.

Images