JP6439081B2 - Endoscope - Google Patents

Description

  The present invention relates to an endoscope, and more particularly to an endoscope that can observe the inside of a body with a wide-angle visual field.

  In the medical field, an endoscope capable of observing the inside of a body with a wide-angle visual field has recently been proposed in order to prevent oversight of a lesion. As an example of such an endoscope, an endoscope having a visual field in front and side of an elongated insertion portion inserted into the body is known.

  In addition, in an endoscope having a visual field in front and side of the elongated insertion portion, in order to balance the light distribution within the visual field range, the illumination light supplied to the endoscope is diffused and covered. A configuration that illuminates the specimen is considered desirable. For example, Japanese Unexamined Patent Application Publication No. 2003-319903 discloses that the distal end portion of the insertion portion of the endoscope is opposed to the distal end surface of the illumination light transmission light guide in order to obtain an illumination light diffusion effect. Thus, a configuration in which a ring-shaped illumination lens (diffuse lens) is disposed is disclosed.

  However, Japanese Patent Application Laid-Open No. 2003-319903, for example, confirms whether or not the ring-shaped illumination lens and the distal end surface of the light guide are disposed in contact with each other when the endoscope is assembled. In particular, there is no disclosure of a configuration that can be confirmed. Therefore, according to the configuration disclosed in Japanese Patent Application Laid-Open No. 2003-319903, the illumination transmitted by the light guide due to the fact that the ring-shaped illumination lens and the tip surface of the light guide are not in contact with each other. There has been a problem that the illumination efficiency when illuminating a subject by diffusing light with the illumination lens may decrease.

  The present invention has been made in view of the above-described circumstances, and provides an endoscope capable of preventing illumination efficiency when illuminating a subject by diffusing illumination light as much as possible. It is aimed.

An endoscope according to an aspect of the present invention is provided along a longitudinal axis direction of an insertion portion to be inserted into a subject, and illumination light for illuminating a subject in the subject is provided at a proximal end of the insertion portion A light guide part that transmits light from the light guide part to the tip part, and a light incident surface that is provided at the tip part of the insertion part and that makes the illumination light transmitted by the light guide part incident upon contact with the end part of the light guide part When an illumination unit having a light emitting surface for emitting the illumination light incident from the light incident surface on at least the side of the insertion portion, the Rutotomoni the light guide portion provided at the base end side of the illumination unit has a columnar portion formed so as to cover along said longitudinal axis, a housing having a light shielding property, in the columnar portion before Symbol housing, and the light incident surface and the end portion of the light guide portion is contacted It is formed by cutting a part of the outer surface of a portion, a window having a light- A.
An endoscope according to an aspect of the present invention is provided along a longitudinal axis direction of an insertion portion to be inserted into a subject, and illumination light for illuminating a subject in the subject is provided at a proximal end of the insertion portion A light guide part that transmits light from the light guide part to the tip part, and a light incident surface that is provided at the tip part of the insertion part and that makes the illumination light transmitted by the light guide part incident upon contact with the end part of the light guide part And an illuminating unit having a light emitting surface that emits illumination light incident from the light incident surface to at least the side of the insertion unit, and provided on a proximal end side with respect to the illuminating unit and the light guide unit A portion having a columnar portion formed so as to cover along the longitudinal axis direction and having a light-shielding property, and a portion of the columnar portion of the housing where the light incident surface and the end of the light guide portion are in contact with each other A window having translucency, formed by cutting out a part of Vignetting, having a filler having a waterproof property and translucency.

The figure which shows the structure of the principal part of the endoscope apparatus containing the endoscope which concerns on embodiment. The perspective view which shows an example of a structure of the front-end | tip part of the endoscope which concerns on embodiment. The figure for demonstrating an example of a structure of the side illumination part provided in the front-end | tip part of the endoscope which concerns on embodiment. The perspective view which shows an example of a structure of the front-end | tip part of the endoscope which concerns on embodiment. The top view which shows an example of a structure of the front-end | tip part of the endoscope which concerns on embodiment. VI-VI sectional view taken on the line of FIG. The figure which shows an example of a structure at the time of seeing the front-end | tip part of the endoscope which concerns on embodiment from the direction shown by arrow AR of FIG. Sectional drawing which shows the example different from FIG. 6 of the structure of the front-end | tip part of the endoscope which concerns on embodiment. Sectional drawing which shows the example different from FIG. 6 of the structure of the front-end | tip part of the endoscope which concerns on embodiment.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

  1 to 9 relate to an embodiment of the present invention.

  As shown in FIG. 1, the endoscope apparatus according to the present embodiment includes an endoscope 1 and an endoscope device 3 mounted on a movable trolley 2. Although the following description will be given taking a flexible endoscope as an example, the present embodiment can be similarly applied to a rigid endoscope. FIG. 1 is a diagram illustrating a configuration of a main part of an endoscope apparatus including an endoscope according to an embodiment.

  The endoscope 1 includes, for example, an elongated insertion portion 4 that is inserted into a living body as a subject. The insertion portion 4 includes an elongated flexible tube 5 provided on the proximal end side, a bending portion 6 provided on the distal end side of the flexible tube 5, and a distal end portion 7 provided on the distal end side of the bending portion 6. , And is configured. In addition, the endoscope 1 is provided with a scope operation switch such as a bending operation knob and a release switch for bending the bending portion 6, and an operation portion 8 provided on the proximal side with respect to the insertion portion 4. And a universal cable 9 extending from the operation unit 8.

  The endoscope device 3 includes, for example, a light source device 11 that emits illumination light for illuminating a subject inside a subject, such as a living tissue existing in a living body, and the endoscope 1 that includes the subject. A video processor 12 that generates and outputs a video signal by performing predetermined processing on an imaging signal obtained when the specimen is imaged, and an observation image corresponding to the video signal output from the video processor 12 are displayed. The monitor 13 includes a keyboard 14 that can input commands and data corresponding to user operations to the video processor 12.

  On the other hand, a bottle 15 for storing a cleaning liquid such as water or physiological saline that is a liquid used for cleaning or the like is detachably attached to the support of the trolley 2. In addition, an air supply pump unit (not shown) is disposed inside any device of the endoscope apparatus 3.

  When the air supplied from the air supply pump unit flows into the bottle 15, the cleaning liquid is supplied to the cleaning nozzle (not shown) provided at the distal end portion 7 via the air supply / liquid supply channel (not shown) of the endoscope 1. ). Further, the shelf of the trolley 2 is provided with an aspiration unit 16 for aspirating the liquid and / or gas ejected into the subject through the washing nozzle of the distal end portion 7.

  The universal cable 9 is connected to the light source device 11 by a connector 17. Further, inside the endoscope 1 including the insertion portion 4 and the universal cable 9, a light guide LG (not shown in FIG. 1) having a plurality of optical fibers for transmitting illumination light emitted from the light source device 11 is provided. ), A plurality of signal lines (not shown) for transmitting an imaging signal and the like, and an air / liquid supply channel formed as a flow path for gas and liquid. The connector 17 connected to the endoscope cable 3 side of the universal cable 9 branches to a signal line, a tube, and a light guide, and is connected to each component.

  That is, the light guide LG has a function as a light guide unit, is provided along the longitudinal axis direction of the insertion unit 4, and inserts illumination light for illuminating the subject existing in the subject. Transmission is performed from the proximal end portion of the portion 4 to the distal end portion.

  As shown in FIG. 2, the distal end portion 7 is adjacent to the cover member 21 formed of a light-shielding material, a rectangular parallelepiped pedestal portion 22 that protrudes in front of the insertion portion 4, and the pedestal portion 22. And a lens unit 24 having a substantially cylindrical shape provided to project forward from the insertion portion 4 at a position where the insertion portion 4 is located. Examples of the light-shielding material used when forming the cover member 21 include resin, metal, or ceramic. In addition, an imaging element 23 that captures incident light incident from each of a front observation window 25 (described later) and a side observation window 26 (described later) and outputs an imaging signal is provided inside the distal end portion 7. Yes. FIG. 2 is a perspective view illustrating an example of the configuration of the distal end portion of the endoscope according to the embodiment. An example of the image sensor 23 provided inside the tip 7 is a CCD or CMOS.

  For example, the cover member 21 is formed in a cylindrical shape such as a substantially cylindrical shape, and is detachably attached to the outer peripheral surface of a columnar portion 31 b (described later) of the housing 31 on the proximal end side of the lens unit 24. Has been. And according to such a structure, when the cover member 21 is attached to the outer peripheral surface of the housing 31, it prevents that the illumination light supplied via the light guide LG leaks outside the front-end | tip part 7. FIG. be able to.

  The lens unit 24 includes a front observation window 25 for observing the front of the insertion portion 4 (tip portion 7) and a side observation window 26 for observing the side of the insertion portion 4 (tip portion 7). It is configured. The lens unit 24 includes a front illumination unit 27 for emitting illumination light transmitted by the light guide LG incorporated in the endoscope 1 to the front of the insertion unit 4 (tip portion 7), and the illumination light. And a side illumination unit 28 for diffusing and emitting to the side of the insertion portion 4 (tip portion 7). The lens unit 24 includes a plurality of lenses or lens groups for forming incident light incident from the front observation window 25 and the side observation window 26 on the imaging surface of the image sensor 23. An imaging optical system (not shown) is provided.

  That is, according to the above-described configuration, the subject existing in front of the insertion portion 4 (tip portion 7) and the subject existing on the side of the insertion portion 4 (tip portion 7) are caused by the image sensor 23. Images are taken simultaneously. In addition, according to the configuration described above, an observation image corresponding to the imaging signal output from the imaging device 23 is used as an observation image in front of the insertion portion 4 (tip portion 7), and the insertion portion 4 (tip portion). 7) An observation image having a wide-angle field of view so that the subject existing on the side of 7) can be observed simultaneously is displayed on the monitor 13.

  In addition, the front of the insertion part 4 (front-end | tip part 7) is a direction along the longitudinal axis C (refer FIG. 2) of the insertion part 4, for example, In this embodiment, it is the longitudinal axis direction of the insertion part 4. The along direction is assumed to be included in front of the insertion portion 4. Further, the side of the insertion portion 4 (the distal end portion 7) is, for example, a direction intersecting with the longitudinal axis C (see FIG. 2) of the insertion portion 4, and in this embodiment, the length of the insertion portion 4 is long. It is assumed that the direction intersecting the axial direction is included on the side of the insertion portion 4. Moreover, as a direction which cross | intersects the longitudinal axis direction of the insertion part 4, an orthogonal direction is mentioned, for example.

  The front observation window 25 is formed by, for example, a circular lens and is disposed on the front end surface of the lens unit 24. The front observation window 25 has an optical axis that passes through the center of the side observation window 26 and is parallel to the longitudinal axis direction of the insertion portion 4. Further, the front observation window 25 has a field of view in front of the insertion portion 4 (tip portion 7).

  The side observation window 26 is disposed on the peripheral side surface of the lens unit 24 on the proximal end side of the front observation window 25. That is, the side observation window 26 is provided between the side illumination unit 28 and the front illumination unit 27 in the lens unit 24 at the distal end portion 7. The side observation window 26 has a field of view on the side of the insertion portion 4 (tip portion 7). Note that the side observation window 26 is preferably formed of a truncated cone-shaped lens having a tapered surface whose outer diameter is gradually reduced from the proximal end side to the distal end side of the lens unit 24.

  The front illumination unit 27 is formed in an annular shape like, for example, an annular shape, and is provided at a position surrounding the front observation window 25 at the tip of the lens unit 24. Moreover, the front illumination part 27 emits the illumination light emitted through the front-end | tip part (not shown) of the light guide LG arrange | positioned inside the base part 22 to the front of the insertion part 4 (front-end | tip part 7). It is configured as a window. Further, the surface of the region between the front illumination unit 27 and the side observation window 26 is subjected to a process for preventing the illumination light emitted from the front illumination unit 27 from entering the side observation window 26. ing. Specifically, the surface of the region between the front illumination unit 27 and the side observation window 26 is subjected to a process such as coating or installation of a partition member, for example.

  For example, as shown in FIG. 3, the side illumination unit 28 is formed in a partial annular shape, and is provided at a position adjacent to the cover member 21 on the base end side of the side observation window 26. FIG. 3 is a diagram illustrating an example of a configuration of a side illumination unit provided at a distal end portion of the endoscope according to the embodiment. Further, the side illumination unit 28 diffuses the illumination light emitted from the distal end portion of the light guide LG inserted and disposed inside the housing 31 and emits it to the side of the insertion portion 4 (tip portion 7). It is configured as an illumination window. Further, the surface of the region between the side observation window 26 and the side illumination unit 28 has a process for preventing the illumination light emitted from the side illumination unit 28 from entering the side observation window 26. It has been subjected. Specifically, the surface of the region between the side observation window 26 and the side illumination unit 28 is subjected to a process such as coating or installation of a partition member, for example.

  That is, according to the configuration described above, the distal end portion of the light guide LG incorporated in the endoscope 1 is branched in two directions: the front illumination unit 27 side and the side illumination unit 28 side.

  On the other hand, as shown in FIGS. 4 and 5, a housing 31 made of a light-shielding material is provided inside the cover member 21 at the distal end portion 7. The light-shielding material used when forming the housing 31 is preferably a resin, but other materials such as metal or ceramic may be used. FIG. 4 is a perspective view illustrating an example of the configuration of the distal end portion of the endoscope according to the embodiment. FIG. 5 is a plan view illustrating an example of the configuration of the distal end portion of the endoscope according to the embodiment.

  For example, as shown in FIG. 6, the housing 31 includes a protrusion 31 a for disposing the side illumination unit 28 at a predetermined position on the distal end side, and a protrusion having a columnar portion 31 b on the proximal end side. It is formed into a shape. The housing 31 is provided at the proximal end side of the distal end portion 7 with respect to the side illumination portion 28 and covers the light guide distal end portion LGE (described later) along the longitudinal axis direction of the insertion portion 4. Is formed. 6 is a cross-sectional view taken along line VI-VI in FIG.

  As shown in FIG. 6, the protruding portion 31 a is formed in a shape capable of fitting and arranging the side illumination unit 28 including the light guide layer 28 a and the diffusion layer 28 b.

  The light guide layer 28a is formed of, for example, a cycloolefin copolymer (COC), and is emitted through a light guide tip LGE that is a portion branched to the side illumination unit 28 among the tips of the light guide LG. The illumination light is guided to the diffusion layer 28b provided on the outer layer side of the light guide layer 28a. The light guide layer 28a includes a light incident surface that is disposed at a position adjacent to an insertion hole 32 (described later) of the housing 31 when the side illumination unit 28 is fitted and disposed in the protruding portion 31a. Is formed.

  The diffusion layer 28b is made of, for example, titanium oxide, and is configured to diffuse and emit illumination light emitted through the light emission surface of the light guide layer 28a.

  That is, the side illumination unit 28 has a light incident surface corresponding to a surface that intersects the longitudinal axis direction of the insertion portion 4 in the light guide layer 28a, and a light emission surface formed by the diffusion layer 28b. Configured. The side illumination unit 28 is disposed at a predetermined position in the housing 31, and illumination light emitted through the light exit surface of the light guide tip LGE inserted and disposed in the insertion hole 32 is incident from the light incident surface. In addition, the incident illumination light is formed so as to be diffused and emitted to the side of the insertion portion 4. Further, the side illumination unit 28 is formed to have a shape that is arranged concentrically or substantially concentrically with respect to the protrusion 31a when attached to the outer peripheral surface of the protrusion 31a. In the following description, it is assumed that the side illumination unit 28 is arranged concentrically with the protruding portion 31a when attached to the outer peripheral surface of the protruding portion 31a.

  As shown in FIGS. 5 and 6, an insertion hole 32 for inserting and arranging the light guide distal end portion LGE in a direction parallel to the longitudinal axis direction of the insertion portion 4 is formed inside the columnar portion 31 b.

  As shown in FIGS. 4 to 6, a rectangular cutout window 33 is formed on the outer periphery of the columnar portion 31 b. Specifically, the cutout window 33 is, for example, a portion adjacent to the light incident surface of the light guide layer 28a in the side illumination unit 28 fitted and disposed in the protruding portion 31a in the outer peripheral portion of the columnar portion 31b. There is a straight line passing through the center CA of the side illumination part 28 arranged concentrically with the protruding part 31a and the center CB of the insertion hole 32 through which the light guide tip LGE is inserted (see FIG. 7 is formed by cutting out a portion including a one-dot chain line. FIG. 7 is a diagram illustrating an example of a configuration when the distal end portion of the endoscope according to the embodiment is viewed from the direction indicated by the arrow AR in FIG. 4.

  That is, the cutout window 33 has translucency, and is inserted into the light incident surface of the side illumination part 28 (light guide part 28 a) arranged in the protruding part 31 a and the insertion hole 32 in the housing 31. The light guide front end LGE is formed in a portion that can be viewed at the same time. In other words, the cutout window 33 is formed in a portion of the housing 31 adjacent to the light incident surface of the side illumination unit 28 disposed in the protruding portion 31a. In other words, the cutout window 33 is formed in the housing 31 with the light incident surface of the side illumination part 28 (light guide part 28a) arranged in the protruding part 31a and the light guide tip part inserted in the insertion hole 32. It is provided on the outer surface of the portion where the light emitting surface of the LGE contacts.

  According to the configuration as described above, as shown in FIGS. 5 and 6, the side illumination part 28 is fitted and disposed in the protruding part 31 a, and the light guide tip LGE is inserted into the insertion hole 32. In the disposed state, the light incident surface of the light guide layer 28a and the light emitting surface of the light guide tip LGE can be reliably brought into contact with each other while being confirmed from the outside. Further, according to the configuration described above, the illumination light transmitted by the light guide LG can be used without waste in a state where the light incident surface of the light guide layer 28a and the light guide tip LGE are in contact with each other. Can be made incident. Further, according to the configuration described above, even if the side illumination unit 28 is formed using a material with low transparency (such as titanium oxide), the light incident surface of the light guide layer 28a and the light It can be visually confirmed from the cutout window 33 whether or not the light emitting surface of the guide tip LGE is in contact with each other. That is, according to the present embodiment, illumination when illuminating a subject on the side of the insertion portion 4 (tip portion 7) by diffusing illumination light transmitted by the light guide LG incorporated in the endoscope 1 is performed. The efficiency can be prevented from decreasing as much as possible.

  Further, according to the configuration described above, the heat generated in the light guide tip LGE can be released from the cutout window 33. Therefore, according to the present embodiment, it is possible to prevent a decrease in illumination efficiency due to thermal deformation of the light guide layer 28a as much as possible.

  In addition, according to this embodiment, the light-incidence surface of the light guide layer 28a of the side illumination part 28 fitted and arrange | positioned at the protrusion part 31a, and the light-projection surface of the light guide front-end | tip part LGE arrange | positioned at the insertion hole 32 As long as the cutout window 33 is formed in a portion that can be viewed at the same time, the form (shape) of the cutout window 33 depends on the form (position or number, etc.) of the insertion hole 32 formed in the columnar portion 31b. Alternatively, the number or the like may be set as appropriate. Specifically, for example, as shown in FIG. 7, when two insertion holes 32 are formed in the columnar portion 31b, each of the two insertion holes 32 in the outer peripheral portion of the columnar portion 31b corresponds. A cutout window 33 may be formed in the portion to be formed.

  On the other hand, the cover member 21 of the present embodiment may be formed of a light-shielding and waterproof material, or attached to the outer peripheral surface of the housing 31 in a state where the light-shielding and waterproof properties are ensured. It may be. And according to such a structure, when the cover member 21 is attached to the outer peripheral surface of the housing 31, the illumination light which passes the light guide front-end | tip part LGE is outside the front-end | tip part 7 through the notch window 33. FIG. Leakage can be prevented, and liquid existing outside the distal end portion 7 can be prevented from entering the inside of the housing 31 through the cutout window 33.

  Moreover, the housing 31 of this embodiment is adjacent to the light-incidence surface of the light guide layer 28a in the side illumination part 28 fitted and arrange | positioned at the protrusion part 31a, and covers the most front end side of the insertion hole 32, for example. Each part other than the part may be formed using a transparent material in which a light-shielding film such as aluminum is covered. And in such a case, the notch window 33 does not need to be provided in the columnar part 31b. That is, the housing 31 of the present embodiment includes a light incident surface of the side illumination unit 28 (light guide unit 28a) fitted and disposed in the protrusion 31a, and a light guide distal end LGE inserted and disposed in the insertion hole 32. It is only necessary that a window having a light transmitting property is formed in a portion where the light emitting surface can be visually recognized at the same time, and a portion other than the window has a light blocking property.

  Further, according to the present embodiment, for example, as shown in FIG. 8, a notable window 33 may be filled with a filler 41 having a waterproof property such as a resin. Moreover, the filler 41 may further have either a light-shielding property or a light-transmitting property as long as it has waterproofness. Further, when the filler 41 is filled in the cutout window 33, the cover member 21 may or may not be attached to the outer peripheral surface of the housing 31. Further, when the cover member 21 is attached to the outer peripheral surface of the housing 31, the filler 41 may not have a certain waterproof property with respect to the outer peripheral surface of the housing 31. Then, according to the configuration including the filler 41 as exemplified above, it is possible to prevent the liquid existing outside the distal end portion 7 from entering the inside of the housing 31. FIG. 8 is a cross-sectional view showing an example different from FIG. 6 of the configuration of the distal end portion of the endoscope according to the embodiment.

  Moreover, according to this embodiment, after confirming visually from the notch window 33 whether the light-incidence surface of the light guide layer 28a and the light-projection surface of the light guide front-end | tip part LGE are mutually contact | abutting. Instead of attaching the cover member 21 to the outer peripheral surface of the housing 31, for example, as shown in FIG. 9, the light guide layer 28 a and the diffusion layer 28 b among the surfaces exposed to the outside of the distal end portion 7 by the cutout window 33. A region including the light incident surface and the side surface of the light guide tip LGE may be covered with a light-shielding film 51. In addition, as a light-shielding material used when forming the film 51, for example, a metal such as aluminum is preferable. And according to such a structure, it can prevent that the illumination light which passes the light guide front-end | tip part LGE leaks outside the front-end | tip part 7 through the notch window 33. FIG. FIG. 9 is a cross-sectional view illustrating an example different from FIG. 6 of the configuration of the distal end portion of the endoscope according to the embodiment.

  Note that the present invention is not limited to the above-described embodiments, and various modifications and applications can be made without departing from the spirit of the invention.

  This application is filed on the basis of the priority claim of Japanese Patent Application No. 2006-147386 filed in Japan on July 27, 2016. The above disclosure is included in the present specification and claims. Shall be quoted.

Claims (11)

A light guide provided along the longitudinal axis direction of the insertion portion inserted into the subject and transmitting illumination light for illuminating the subject in the subject from the proximal end portion to the distal end portion of the insertion portion; ,
A light incident surface that is provided at a distal end portion of the insertion portion and makes incident illumination light transmitted by the light guide portion by contacting the end portion of the light guide portion, and illumination light incident from the light incident surface. An illumination unit having at least a light exit surface that emits to the side of the insertion unit;
Has a columnar portion the Rutotomoni the light guide portion is formed so as to cover along the longitudinal axis direction provided at the base end side of the lighting unit, a housing having a light shielding property,
In the columnar portion before Symbol housing, and the light incident surface and the end portion of the light guide portion is formed by cutting a part of the outer surface of the portion in contact, a window having a light-
The endoscope characterized by having. The endoscope according to claim 1, wherein the window is formed in a portion of the columnar portion of the housing adjacent to the light incident surface. The housing is formed to include the columnar part, and a protruding part that is provided on the distal end side of the columnar part and for arranging the illumination part on the outer peripheral side,
The endoscope according to claim 2, wherein the illumination unit is formed to have a shape that is disposed substantially concentrically with respect to the protrusion. The inside of the columnar part is formed with an insertion hole that covers the light guide part by inserting the light guide part along the longitudinal axis direction of the insertion part. Endoscope. The window is formed by cutting out a portion of the outer periphery of the columnar portion that is adjacent to the light incident surface and includes a straight line that passes through the center of the illumination unit and the center of the insertion hole. Is a cutout window
The endoscope according to claim 4. The window is covered by a cover member that is detachably attached to the outer peripheral surface of the columnar portion.
The endoscope according to claim 3. The window is filled with a waterproof filler.
The endoscope according to claim 3 . A front observation window for observing the front of the insertion portion, provided at the distal end of the insertion portion;
Another illumination unit that is provided at a position surrounding the front observation window at the distal end of the insertion unit and emits illumination light transmitted by the light guide unit at least in front of the insertion unit;
The endoscope according to claim 1, further comprising: A side observation window is further provided between the illumination unit and the other illumination unit for observing the side of the insertion unit.
The endoscope according to claim 8. The light guide unit is a light guide including an optical fiber for transmitting illumination light emitted from a light source device from a proximal end portion to a distal end portion of the insertion portion.
The endoscope according to claim 1. A light guide provided along the longitudinal axis direction of the insertion portion inserted into the subject and transmitting illumination light for illuminating the subject in the subject from the proximal end portion to the distal end portion of the insertion portion; ,
A light incident surface that is provided at a distal end portion of the insertion portion and makes incident illumination light transmitted by the light guide portion by contacting the end portion of the light guide portion, and illumination light incident from the light incident surface. An illumination unit having at least a light exit surface that emits to the side of the insertion unit;
A light-shielding housing having a columnar part that is provided on the base end side with respect to the illumination part and that covers the light guide part along the longitudinal axis direction;
A window having translucency, formed by cutting out part of a portion of the columnar portion of the housing where the light incident surface and the end of the light guide portion are in contact with each other;
A filler provided on the window and having waterproofness and translucency;
The endoscope characterized by having.

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