JP2006247261A - Endoscope - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an endoscope for raising cleaning property and draining property in cover glass arranged in an insertion end part. <P>SOLUTION: A distal end hard part 8 includes: an end surface 8a; and a storage part 50. The storage part 50 includes a first opening end 50a on the first end surface 8a. An optical system 43 is arranged in the storage part 50. The cover glass 42 includes a second end surface 42a which is exposed to an outer part. The first opening end 50a is clogged by the cover glass 42. A merger duct 63 is arranged in the distal end hard part 8. A second opening end 64a if arranged on the first end surface 8a in the merger duct 63. A rectifying board 71 is arranged to face the second opening end 64a. An angle made by an axial line L1 in the distal end part 64 of the merger duct 63 and the second end surface 42a is made to be not less than 90°. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to an endoscope used for laparoscopy and the like.

  The insertion portion of the endoscope has a hard insertion end at the tip. The insertion end portion has a housing portion that opens to the end surface (tip surface), and the imaging unit is housed in the housing portion. The imaging unit includes a lens and a CCD that converts an observation image formed through the lens into an electrical signal. The imaging unit is inserted into the accommodating portion from the proximal end side of the insertion portion. The opening end of the housing part is closed by a cover glass. The cover glass is fitted into the insertion end from the outside so as to be substantially flush with the end face of the insertion end.

By the way, in the endoscope as described above, the cover glass may become cloudy or dirty during use, and it may be difficult to observe the observation object satisfactorily. For this reason, this type of endoscope is configured such that a pipe line having an open end is provided on the end face of the insertion end, and water can be sent to the end face of the insertion end via this pipe. Is known (for example, see Patent Document 1).
JP-A-6-154155

  However, in the endoscope as described above, water sent in the direction of the end surface of the insertion end via the conduit is discharged forward from the end surface, so that it is substantially flush with the open end of the conduit. It is difficult for water to hit the surface of the cover glass above. In addition, there is a problem that the water that has been applied remains on the surface of the cover glass and obstructs the field of view.

  This invention is made based on such a situation, and provides the endoscope which can improve the washability of the cover like the cover glass provided in the insertion end part, and drainage. Objective.

  An endoscope according to an aspect of the present invention includes an insertion end portion having a first end surface, a first opening end on the first end surface, and a storage portion provided at the insertion end portion; An optical system provided in the housing portion, a second end surface exposed to the outside, a cover for closing the first opening end, and a second opening end on the first end surface A pipe provided at the insertion end and a rectifying plate facing the second opening end, and an angle formed between the axis of the tip of the pipe and the second end surface is 90 °. It is set to be the above.

  According to the endoscope of one aspect of the present invention, the rectifying plate is provided so as to face the second opening end that is the opening end of the conduit. Moreover, the angle formed between the axis of the distal end portion of the pipe line and the second end surface which is the outer surface of the cover is set to be 90 ° or more. Therefore, water and cleaning liquid etc. can be satisfactorily supplied to the second end face of the cover via the rectifying plate by sending water or cleaning liquid etc. to the first end face direction which is the tip face of the insertion end through the conduit. You can guess.

  According to one aspect of the present invention, an endoscope can be obtained that can improve the cleanability and drainage of a cover such as a cover glass provided at an insertion end.

Hereinafter, a first embodiment of the present invention will be described with reference to FIGS. 1 to 6.
As shown in FIG. 1, an endoscope 1 according to this embodiment is a direct-view type endoscope used for laparoscopic examination and the like, and includes an insertion unit 2, an operation unit 3, an imaging unit 41, and a cover as a cover. A glass 42, a pair of light guides 31, a universal cord 4, a light guide connector 5 as a connector portion, a camera cable serpentine tube 6, a camera connector 7, a conduit 11, a sheath 70, and the like are provided.

  The insertion portion 2 is configured by sequentially connecting a distal end rigid portion 8, a bending portion 9, and a rigid insertion portion 10 as an insertion end portion from the distal end side. As shown in FIG. 2, the distal end hard portion 8 has a substantially circular first end surface (tip surface) 8a. The operation unit 3 is connected to the proximal end of the rigid insertion portion 10 that is the proximal end of the insertion portion 2. A universal cord 4 is provided at the base end of the operation unit 3. A light guide connector 5 is provided at the base end of the universal cord 4. The universal cord 4 can be connected to the light source device 100 via the light guide connector 5. A camera cable serpentine tube 6 branches from the light guide connector 5. A camera connector 7 is provided at the base end of the camera cable serpentine tube 6. The camera cable serpentine tube 6 can be connected to the video processor 101 via the camera connector 7. The endoscope main body is configured by including the insertion portion 2, the operation portion 3, the universal cord 4, and the light guide connector 5.

  The endoscope body has a bending mechanism that operates the bending portion 9 of the operation unit 3. Although not shown, the bending mechanism has an angle lever and an angle wire as an operating part. The angle lever is provided in the operation unit 3. The angle wire is provided from the inside of the bending portion 9 to the inside of the rigid insertion portion 10 and is connected to an angle lever provided at the operation portion 3.

  A pair of light guides 31 are inserted through the endoscope body. These light guides 31 are arranged in line with each other in the left-right direction in FIG. Each light guide 31 is connected to the light guide connector 5 via the universal cord 4. As shown in FIGS. 2 and 3, the tip of each light guide 31 is exposed to the outside through the first end face 8 a of the tip hard portion 8. The center of the tip of each light guide 31 is located above the center O of the first end face 8a in FIG. The tip of each light guide 31 is covered with a light guide cover 32. Each light guide cover 32 is fitted and fixed to the distal end hard portion 8 from the outside so as to be substantially flush with the first end surface 8 a of the distal end hard portion 8.

  As shown in FIG. 4, an accommodating portion 50 is provided in the distal end hard portion 8. An imaging unit 41 is accommodated in the accommodating portion 50. In detail, the accommodating part 50 has the 1st opening end 50a in the 1st end surface 8a of the front-end | tip hard part 8 (refer FIG.2 and FIG.4). The first opening end 50a has a substantially circular shape. In the endoscope 1, the center of the first opening end 50a is provided below the center O of the first end face 8a in FIG.

  The imaging unit 41 includes an optical system 43 having an objective lens, and a CCD 44 as an imaging device that converts an observation image formed through the optical system 43 into an electrical signal. The image pickup unit 41 is fitted and fixed in the housing portion 50 in such a posture that the optical system 43 is on the distal end side and the optical axis L3 of the optical system 43 is parallel to the axis (center axis) L2 of the distal hard portion 8. Yes. The imaging unit 41 is electrically connected to the camera connector 7 via the universal cord 4, the light guide connector 5, and the camera cable serpentine tube 6.

  The first opening end 50 a of the housing part 50 is closed with a cover glass 42. That is, the tip of the optical system 43 that is the tip of the imaging unit 41 is covered with the cover glass 42. Specifically, the cover glass 42 is formed in a disc shape having a second end surface 42a and a third end surface 42b parallel to the second end surface 42a. The cover glass 42 is fitted into the distal end hard portion 8 from the outside so as to be substantially flush with the first end surface 8a of the distal end hard portion 8 with the second end surface 42a exposed to the outside. It is fixed. In this endoscope 1, the optical axis L 3 of the optical system 43 passes through the approximate center of the cover glass 42. In this endoscope 1, the cover glass 42 is for covering the tip of the optical system 43, but may be a part of the optical system 43.

  A conduit 11 is built in the endoscope body. Specifically, the pipe 11 includes a water supply pipe 61 through which a liquid such as water and a cleaning liquid passes, an air supply pipe 62 through which a gas such as air passes, and a water supply pipe 61 and an air supply pipe 62. Has a merged pipeline 63 formed by merging. The air supply pipeline 62 merges with the water supply pipeline 61 in the insertion portion 2. The merge pipe 63 has a tip portion 64. The distal end portion 64 of the merging conduit 63 has a second opening end 64a on the first end surface 8a of the distal end hard portion 8. The second opening end 64a has a substantially circular shape. In the endoscope 1, the center of the second opening end 64a is provided above the center O of the first end face 8a in FIG. Further, in the endoscope 1, the center of the first opening end 50a, the center of the second opening end 64a, and the center O of the first end face 8a are located on substantially the same line.

  The operation unit 3 includes an air / water supply cylinder 15. An air supply pipe 62 and a water supply pipe 61 are connected to the air / water supply cylinder 15, respectively. An air / liquid feed button 16 is detachably fitted in the air / water supply cylinder 15.

  As shown in FIGS. 5 and 6, the proximal ends of the water supply pipe 61 and the air supply pipe 62 are connected to the cylindrical air / water supply cap 13. The air / water supply cap 13 is detachably attached to a connector case 18 provided in the light guide connector 5. This connector case 18 is one of the members constituting the appearance (outer shape) of the endoscope body. The air / water supply cap 13 can be connected to a water supply source via a tube (not shown). Further, the air supply / water supply base 13 is provided with an air supply base 14. The air supply base 14 can be connected to an air supply source via a tube (not shown).

  Specifically, a water supply path 13 a and an air supply path (first flow path) 14 a are provided in the air / water supply base 13. By connecting the air / water supply base 13 to a water supply source, water, cleaning liquid, or the like can be sent into the water supply path 13a. The air supply passage 14a is provided so as to surround the water supply passage 13a through a partition wall, and extends into the air supply cap 14. By connecting the air supply base 14 to an air supply source, air or the like can be sent into the air supply path 14a.

  The connector case 18 has an opening 81 for fitting the air / water supply base 13. The air / water supply base 13 is fitted into the opening 81 in an air-tight and liquid-tight manner via an O-ring 82. The connector case 18 has an air supply passage (second flow passage) 83 that communicates with one of the water supply conduit 61 and the air supply conduit 62, for example, the air supply conduit 62. The air supply channel 83 is open to the peripheral surface 81 a that defines the opening 81.

  On the other hand, the air / water supply base 13 has a communication port 84 that opens the air supply path 14 a at a position facing the peripheral surface 81 a that defines the opening 81 of the connector case 18. As shown in FIG. 6, the air supply flow path 83 of the connector case 18 and the communication port 84 of the air supply / water supply base 13 are at positions facing each other across the axis (center axis) L4 of the air supply / water supply base 13. Is provided. In the endoscope 1, the communication port 84 is angled along the circumferential direction of the air / water supply base 13 from a position facing the air supply passage 83 on the outer wall of the cylindrical air / water supply base 13. Is provided at a position shifted by approximately 180 °.

  In this endoscope 1, the air supply / water supply base 13 is attached to the connector case 18, so that the water supply pipe 61 communicates with the water supply path 13 a of the air / water supply base 13. Therefore, the water sent from the water supply source is sent out to the water supply pipe 61 through the water supply path 13 a provided in the air / water supply base 13.

  Further, in this endoscope 1, the air supply pipe 62 is attached to the connector case 18 so that the air supply duct 62 defines the air supply passage 83 and the opening 81 included in the connector case 18. The air supply path 14a is communicated between 81a and the outer surface of the air / water supply base 13 and through the communication port 84. Therefore, the air sent from the air supply source is blown out from the communication port 84 through the air supply path 14 a provided in the air supply base 14 and the air supply / water supply base 13. Then, as shown by the arrows in FIG. 6, the air supply conduit 62 passes between the peripheral surface 81 a and the air / water supply base 13 along the circumferential direction of the air / water supply base 13. Sent out.

  The air supply channel 83 may be formed so as to communicate with the water supply conduit 61. By doing in this way, the water supply pipe 61 is provided between the peripheral surface 81a defining the opening 81 included in the air supply flow path 83 and the connector case 18 and the outer surface of the air supply / water supply base 13, and the communication port. It is possible to communicate with the water supply passage 13 a of the air / water supply base 13 through the air supply / reception port 84. Also in this case, it is preferable that the air supply flow channel 83 and the communication port 84 are provided at positions facing each other across the axis L4 of the air supply / water supply base 13.

  Thus, in this endoscope 1, the connector case 18 is provided with the air supply flow path 83 as the air supply / liquid supply flow path, so the pipe line 11 and the air supply / water supply base 13 (this embodiment is implemented in a small space). In the embodiment, the air supply pipe 62 and the air supply / water supply base 13) can be connected. Further, since the air supply passage 83 and the communication port 84 are provided so as to be shifted, air, water, a cleaning liquid, or the like can be widely spread to the region between the connector case 18 and the air / water supply base 13. . Therefore, it is possible to improve the cleanability between the connector case 18 and the air / water supply base 13 (gap).

  A flexible sheath 70 is detachably attached to the insertion portion 2 along its longitudinal direction. A rectifying plate 71 is provided at the distal end of the sheath 70 so as to face the second opening end 64 a that is the distal end of the merging pipeline 63. As shown in FIGS. 2 and 4, the rectifying plate 71 is provided so as to protrude from the distal end edge of the sheath 70 in the direction of the center O of the first end face 8 a of the distal end hard portion 8. The rectifying plate 71 covers the second opening end 64a of the merging conduit 63 and is provided so as not to interfere with the tips of the pair of light guides 31 and the cover glass 42.

  Further, in the endoscope 1, the angle θ formed by the axis L1 of the distal end portion 64 of the merging conduit 63 and the second end surface 42a is set to be 90 ° or more. That is, the angle θ formed between the central axis passing through the second opening end 64a and along the merged pipe 63 and the second end face 42a is set to be 90 ° or more. Here, the distal end portion 64 of the merging conduit 63 is refracted in a direction approaching the optical axis L3 of the optical system 43. In other words, the distal end portion 64 of the merging pipeline 63 is refracted in a direction approaching an axis extending in the longitudinal direction of the distal end hard portion 8 through the center of the cover glass 42.

  In the endoscope 1, the cover glass 42 can be washed by the following manner. When the air / liquid feeding button 16 provided in the operation unit 3 is operated, water, a cleaning liquid, or the like is sent out in the direction of the first end face 8a of the distal end hard portion 8 through the water supply conduit 61 and the merge conduit 63. Then, it is discharged out of the insertion portion 2 from the second opening end 64a of the tip end portion 64 of the merging pipeline 63. Since the distal end portion 64 of the merge pipe 63 is refracted in a direction approaching the optical axis L3 of the optical system 43, water, cleaning liquid, etc. discharged from the second opening end 64a hit the rectifying plate 71, and the first Of the cover glass 42 arranged alongside the second opening end 64a on the end surface 8a of the cover glass 42 in the direction of the second end surface 42a. Therefore, the 2nd end surface 42a (outer surface) of the cover glass 42 can be wash | cleaned favorably. Moreover, when only air is applied, the water, cleaning liquid, etc. which remain | survived on the surface of the 2nd end surface 42a of the cover glass 42 can be removed.

  As described above, according to the endoscope 1 of the present embodiment, the distal end hard portion 8 having the first end surface 8a, the first end surface 8a has the first opening end 50a, and the distal end hard portion 8 is provided. A housing glass 50, an optical system 43 provided in the housing 50, a cover glass 42 having a second end face 42a and closing the first opening end 50a, and a first end face 8a. And a merging pipe 63 provided in the hard tip 8 and a rectifying plate 71 facing the second opening end 64a. Further, the angle θ formed by the axis L1 of the front end portion 64 of the merge pipe 63 and the second end face 42a of the cover glass 42 is set to be 90 ° or more. Specifically, the distal end portion 64 of the merging conduit 63 is refracted in a direction approaching the optical axis L3 of the optical system 43. Therefore, by sending water, cleaning liquid, air, or the like to the first end surface 8a, which is the distal end surface of the distal end hard portion 8, via the merging conduit 63, the second end surface 42a of the cover glass 42 is favorably supplied. Water, cleaning liquid or air can be applied. Accordingly, it is possible to improve the cleaning property or drainage property of the cover glass 42.

  In the endoscope 1 of the present embodiment, the rectifying plate 71 is provided on the sheath 70 that is detachably attached to the insertion portion 2. Therefore, the rectifying plate 71 can be removed from the endoscope 1 by removing the sheath 70 from the insertion portion 2. With such a configuration, water or the like can be applied to an observation object located in front of the distal end hard portion 8 by discharging water from the merging conduit 63 with the rectifying plate 71 removed. Therefore, it is possible to clean both the observation object and the cover glass with one conduit. Furthermore, the area | region covered with the baffle plate 71 of the 1st end surface 8a can also be wash | cleaned by removing the sheath 70 from the insertion part 2. FIG.

  In addition, the confluence pipe line 63 should just be set so that the initial inclination in the 2nd opening end 64a of the axis line along the longitudinal direction may become 90 degrees or more with respect to the 2nd end surface 42a. . Therefore, in the present embodiment, the tip portion 64 has a linear shape, but the tip portion 64 has an initial gradient at the second opening end 64a of 90 ° or more with respect to the second end face 42a. Such a curved shape may be used.

Hereinafter, a second embodiment of the present invention will be described with reference to FIG.
In the endoscope 1 of the present embodiment, the cover glass 42 is provided so that the second end surface 42 a of the cover glass 42 is inclined with respect to the first end surface 8 a of the distal end hard portion 8. Specifically, the cover glass 42 is disposed such that the second end surface 42a is inclined in a direction away from the first end surface 8a as it goes from the second opening end 64a side to the first opening end 50a side. ing. The cover glass 42 is attached to the distal end hard portion 8 so as to cover the first opening end 50a.

  Moreover, the front-end | tip part 64 of the confluence | merging pipe line 63 is formed so that it may be substantially orthogonal to the 1st end surface 8a. That is, the merging pipe 63 is formed straight up to the tip so that the axis L1 of the tip 64 matches the axis of the main body of the merging pipe 63.

  With this configuration, the angle θ formed between the axis L1 of the tip end portion 64 of the merging conduit 63 (matching the axis of the main body portion of the merging conduit 63) and the second end face 42a of the cover glass 42 is 90 °. That's it. Since other configurations are the same as those of the above-described first embodiment, overlapping descriptions are omitted by attaching the same reference numerals to the drawings.

According to the endoscope 1 of the present embodiment, the same effect as that of the endoscope 1 of the first embodiment can be obtained.
By the way, after cleaning the second end face 42a of the cover glass 42, liquid droplets remain on the second end face 42a, or liquid drops remaining on the first end face 8a appear on the second end face 42a. If it flows, the observed object may become blurred. On the other hand, in the endoscope 1 of the present embodiment, since the second end surface 42a of the cover glass 42 is inclined with respect to the first end surface 8a, water discharged from the merging pipe 63 is covered. It is difficult to remain on the second end surface 42a of the glass 42, and it is easy to remove it by applying air. Moreover, even if a droplet remains on the second end surface 42a of the cover glass 42, the droplet tends to flow down from the second end surface 42a.

Hereinafter, a third embodiment of the present invention will be described with reference to FIG.
In the endoscope 1 of the present embodiment, a cover glass having a substantially trapezoidal cross section is used as the cover glass 42. That is, the cover glass 42 has a second end face 42a exposed to the outside, and a third end face 42b having a perpendicular intersecting the perpendicular of the second end face 42a. Further, the imaging unit 41 is fitted and fixed in the housing portion 50 in a posture in which the optical axis L3 of the optical system 43 is parallel to the axis (center axis) L2 of the distal end hard portion 8.

  In the endoscope 1, the cover glass 42 as described above is configured such that the second end face 42 a is inclined with respect to the first end face 8 a and the third end face 42 b is the optical axis L 3 of the optical system 43. It is provided in a posture orthogonal to. In addition, the front-end | tip part 64 of the confluence | merging pipe line 63 is formed so that it may be substantially orthogonal to the 1st end surface 8a similarly to 2nd Embodiment.

  With this configuration, the angle θ formed between the axis L1 of the tip end portion 64 of the merging conduit 63 (matching the axis of the main body portion of the merging conduit 63) and the second end face 42a of the cover glass 42 is 90 °. That's it. Since the other configuration is the same as that of the first embodiment described above, the overlapping description will be omitted by attaching the same reference numerals to the drawings.

  According to the endoscope 1 of the present embodiment, the same effect as that of the endoscope 1 of the second embodiment can be obtained. The cover glass 42 having a substantially trapezoidal shape (substantially prism shape) as described above may form part of the optical system 43 as a result. Therefore, in designing the optical system 43 in the endoscope 1 of the present embodiment, the cover glass 42 is regarded as a part of the optical system 43 and the optical system is considered in consideration of the refractive index of light by the cover glass 42 and the like. 43 may be designed.

Hereinafter, a fourth embodiment of the present invention will be described with reference to FIG.
In the endoscope 1 of the present embodiment, the distal end portion 64 of the merging conduit 63 is formed so as to be substantially orthogonal to the first end face 8a, as in the second embodiment. Further, the imaging unit 41 is provided in a posture in which the optical axis L3 of the optical system 43 is inclined with respect to the axis L2 of the distal end hard portion 8. Specifically, the imaging unit 41 is inclined in a direction in which the optical axis L3 of the optical system 43 intersects the axis L2 of the distal end portion 64 of the merging conduit 63 and the outside (front) of the endoscope 1.

  The cover glass 42 is formed in a disk shape having a second end surface 42a and a third end surface 42b parallel to the second end surface 42a. The cover glass 42 is attached such that the second end face 42 a is inclined with respect to the first end face 8 a and the third end face 42 b is orthogonal to the optical axis L 3 of the optical system 43.

  With such a configuration, the angle θ formed by the axis L1 of the front end portion 64 of the merging conduit 63 (coincident with the axis of the main body portion of the merging conduit 63) and the second end surface 42a of the cover glass 42 is 90. More than °. Since other configurations are the same as those of the above-described first embodiment, overlapping descriptions are omitted by attaching the same reference numerals to the drawings.

  According to the endoscope 1 of the present embodiment, the same effect as that of the endoscope 1 of the second embodiment can be obtained. In the endoscope 1 according to the present embodiment, the optical axis L3 of the optical system 43 is inclined with respect to the axis L2 of the distal end hard portion 8, but the bending mechanism (angle lever) of the operation portion 3 is operated. Thus, it can be used in the same manner as an endoscope for direct viewing.

Hereinafter, a fifth embodiment of the present invention will be described with reference to FIGS. 10 and 11.
In the endoscope 1 of the present embodiment, the sheath 70 is omitted. A current plate 72 separate from the sheath 70 is directly attached to the distal end hard portion 8. Since other configurations are the same as those of the above-described first embodiment, overlapping descriptions are omitted by attaching the same reference numerals to the drawings.

  According to the endoscope 1 of this embodiment, it has the baffle plate 72 which opposes the 2nd opening end 64a. The angle θ formed by the axis L1 of the distal end portion 64 of the merging conduit 63 and the second end face 42a is set to be 90 ° or more. Specifically, the tip portion 64 is refracted in a direction approaching the optical axis L3 of the optical system 43. Therefore, it is good for the second end surface 42a of the cover glass 42 by sending water, a cleaning liquid, air, or the like to the first end surface 8a that is the front end surface of the front end hard portion 8 through the junction pipe 63. Water, cleaning liquid, air, or the like can be applied thereto. Therefore, it is possible to improve the cleanability and drainage of the cover glass 42. Further, according to the endoscope 1 of the present embodiment, the sheath 70 can be omitted, and the diameter of the insertion portion 2 can be reduced.

Hereinafter, a sixth embodiment of the present invention will be described with reference to FIG.
In the endoscope 1 of the present embodiment, the sheath 70 is omitted as in the endoscope 1 of the fifth embodiment. A rectifying plate 72 separate from the sheath 70 is directly attached to the distal end hard portion 8. Further, in the endoscope 1 of the present embodiment, the second end surface 42a of the cover glass 42 is inclined with respect to the first end surface 8a of the distal end hard portion 8 in the same manner as the endoscope 1 of the second embodiment. Thus, a cover glass 42 is provided. The cover glass 42 is attached to the distal end hard portion 8 so as to cover the first opening end 50a. Further, the junction pipe 63 is formed straight so that the tip end portion 64 is substantially orthogonal to the first end face 8a.

  With this configuration, the angle θ formed between the axis L1 of the tip end portion 64 of the merging conduit 63 (matching the axis of the main body portion of the merging conduit 63) and the second end face 42a of the cover glass 42 is 90 °. That's it. Since other configurations are the same as those of the above-described first embodiment, overlapping descriptions are omitted by attaching the same reference numerals to the drawings.

  According to the endoscope 1 of the present embodiment, the same effects as those of the second embodiment can be obtained. Further, the sheath 70 can be omitted.

Hereinafter, a seventh embodiment of the present invention will be described with reference to FIG.
In the endoscope 1 of the present embodiment, the sheath 70 is omitted as in the endoscope 1 of the fifth embodiment. A rectifying plate 72 separate from the sheath 70 is directly attached to the distal end hard portion 8. Further, in the endoscope 1 of the present embodiment, the second end surface 42a exposed to the outside and the perpendicular intersecting the perpendicular of the second end surface 42a, as in the endoscope 1 of the third embodiment. A cover glass 42 having a substantially trapezoidal cross section is used. The cover glass 42 is provided in such a posture that the second end surface 42 a is inclined with respect to the first end surface 8 a and the third end surface 42 b is orthogonal to the optical axis L 3 of the optical system 43. Further, the junction pipe 63 is formed straight so that the tip end portion 64 is substantially orthogonal to the first end face 8a.

  With this configuration, the angle θ formed between the axis L1 of the tip end portion 64 of the merging conduit 63 (matching the axis of the main body portion of the merging conduit 63) and the second end face 42a of the cover glass 42 is 90 °. That's it. Since other configurations are the same as those of the above-described first embodiment, overlapping descriptions are omitted by attaching the same reference numerals to the drawings.

  According to the endoscope 1 of the present embodiment, the same effect as that of the endoscope 1 of the second embodiment can be obtained. Further, the sheath 70 can be omitted.

Hereinafter, an eighth embodiment of the present invention will be described with reference to FIG.
In the endoscope 1 of the present embodiment, the sheath 70 is omitted as in the endoscope 1 of the fifth embodiment. A rectifying plate 72 separate from the sheath 70 is directly attached to the distal end hard portion 8. Further, in the endoscope 1 according to the present embodiment, similarly to the endoscope 1 according to the fourth embodiment, the merging pipe line is such that the distal end portion 64 of the merging pipe line 63 is substantially orthogonal to the first end surface 8a. 63 is formed straight.

  The imaging unit 41 is inclined in a direction in which the optical axis L3 of the optical system 43 intersects the axis L1 of the distal end portion 64 of the merging conduit 63 and the outside (front end side) of the endoscope 1. The disc-shaped cover glass 42 having the second end surface 42a and the third end surface 42b parallel to the second end surface 42a has the second end surface 42a inclined with respect to the first end surface 8a, and The third end face 42b is attached in a posture orthogonal to the optical axis L3 of the optical system 43.

  With this configuration, the angle θ formed between the axis L1 of the tip end portion 64 of the merging conduit 63 (matching the axis of the main body portion of the merging conduit 63) and the second end face 42a of the cover glass 42 is 90 °. That's it. Since other configurations are the same as those of the above-described first embodiment, overlapping descriptions are omitted by attaching the same reference numerals to the drawings.

  According to the endoscope 1 of the present embodiment, the same effect as that of the endoscope 1 of the second embodiment can be obtained. In the endoscope 1 of the present embodiment, the optical axis L3 of the optical system 43 is inclined with respect to the axis L2 of the distal end hard portion 8, but the bending mechanism (angle lever) of the operation portion 3 is operated. Thus, it can be used in the same manner as the endoscope 1 for direct viewing.

  According to each of the embodiments, the following configuration is obtained.

(Appendix 1)
An insertion end having a first end face;
A receiving portion having a first opening end on the first end face and provided at the insertion end;
An optical system provided in the housing section;
A cover having a second end face exposed to the outside and closing the first open end;
A pipe line having a second opening end on the first end surface and provided at the insertion end;
A rectifying plate facing the second opening end;
An endoscope characterized in that an angle formed by an axis of a distal end portion of the duct and the second end surface is set to be 90 ° or more.

(Appendix 2)
An insertion end having an end face;
A first opening end on the end face, and a receiving portion provided at the insertion end;
An optical system provided in the housing section;
A pipe line having a second open end on the end face and provided at the insertion end;
A rectifying plate facing the second opening end;
An endoscope characterized in that a distal end portion of the duct is refracted in a direction approaching the optical axis of the optical system.

(Appendix 3)
The endoscope according to appendix 1 or 2, wherein the rectifying plate is detachable.

(Appendix 4)
An insertion portion including an insertion end having a first end surface;
An operation unit coupled to the insertion unit;
A receiving portion having a first opening end on the first end face and provided at the insertion end;
An imaging unit for converting an observation image formed through the optical system and the optical system into an electrical signal, and an imaging unit provided in the housing;
A cover having a second end face exposed to the outside and closing the first open end;
A pipe having a second opening end on the first end surface and provided from the insertion portion to the operation portion;
A rectifying plate facing the second opening end;
An endoscope characterized in that an angle formed between an axis passing through the second opening end and along the pipe line and the second end surface is set to 90 ° or more.

(Appendix 5)
An insertion portion including an insertion end having a first end surface;
An operation unit coupled to the insertion unit;
A receiving portion having a first opening end on the first end face and provided at the insertion end;
An imaging unit for converting an observation image formed through the optical system and the optical system into an electrical signal, and an imaging unit provided in the housing;
A cover having a second end face exposed to the outside and closing the first open end;
A pipe having a second opening end on the first end surface and provided from the insertion portion to the operation portion;
A rectifying plate facing the second opening end;
In the pipe, the initial gradient at the second opening end of the axis along the longitudinal direction is set so that the angle with respect to the second end surface is 90 ° or more. Endoscope.

(Appendix 6)
The endoscope according to appendix 4 or 5, wherein the insertion portion is covered with a detachable sheath, and the rectifying plate is provided on the sheath.

(Appendix 7)
An insertion part;
An operation unit coupled to the insertion unit;
Universal cord provided in this operation unit,
A connector case, and a connector portion provided in the universal cord;
A conduit provided from the insertion portion to the connector portion;
A first passage, and a base provided in the connector case;
The connector case has an opening for fitting the base, and a second flow path that communicates with the pipe and opens to a circumferential surface that defines the opening;
The endoscope, wherein the base has a communication port for communicating the first flow path and the second flow path at a position facing a peripheral surface defining the opening.

(Appendix 8)
The endoscope according to appendix 7, wherein the second flow path and the communication port are provided at positions facing each other across the axis of the cap.

(Appendix 9)
The endoscope according to appendix 6 or 7, wherein the base is detachably attached to the connector case.

1 is a perspective view showing an endoscope according to a first embodiment of the present invention. The front view which looked at the endoscope of FIG. 1 from the front end side in the state which attached the sheath. Sectional drawing cut | disconnected and shown along the III-III line of FIG. Sectional drawing cut | disconnected and shown along the IV-IV line of FIG. FIG. 2 is a side view showing the vicinity of a connector case of the endoscope of FIG. Sectional drawing cut | disconnected and shown along the VI-VI line of FIG. Sectional drawing which shows the front-end | tip hard part vicinity of the endoscope which concerns on the 2nd Embodiment of this invention. Sectional drawing which shows the front-end | tip hard part vicinity of the endoscope which concerns on the 3rd Embodiment of this invention. Sectional drawing which shows the front-end | tip hard part vicinity of the endoscope which concerns on the 4th Embodiment of this invention. The front view which looked at the endoscope which concerns on the 5th Embodiment of this invention from the front end side. Sectional drawing cut | disconnected and shown along the XI-XI line of FIG. Sectional drawing which shows the front-end | tip hard part vicinity of the endoscope which concerns on the 6th Embodiment of this invention. Sectional drawing which shows the front-end | tip hard part vicinity of the endoscope which concerns on the 7th Embodiment of this invention. Sectional drawing which shows the front-end | tip hard part vicinity of the endoscope which concerns on the 8th Embodiment of this invention.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 ... Endoscope, 2 ... Insertion part, 8 ... Hard tip part (insertion end part), 8a ... 1st end surface, 11 ... Pipe line, 41 ... Imaging unit, 42 ... Cover glass (cover), 42a ... 1st 2 end face, 42b ... third end face, 43 ... optical system, 44 ... CCD (imaging device), 50 ... accommodating portion, 51 ... first opening end, 60 ... merging pipe, 60a ... tip of the joining pipe 61, second opening end, 71, 72 ... rectifying plate, L1: central axis of the tip of the merged pipe

Claims (5)

An insertion end having a first end face;
A receiving portion having a first opening end on the first end face and provided at the insertion end;
An optical system provided in the housing section;
A cover having a second end face exposed to the outside and closing the first open end;
A pipe line having a second opening end on the first end surface and provided at the insertion end;
A rectifying plate facing the second opening end;
An endoscope characterized in that an angle formed by an axis of a distal end portion of the duct and the second end surface is set to be 90 ° or more.   The endoscope according to claim 1, wherein a distal end portion of the duct is refracted in a direction approaching an optical axis of the optical system.   The endoscope according to claim 1, wherein the cover is provided in a posture in which the second end surface is inclined with respect to the first end surface. The optical system is provided in a posture in which the optical axis is parallel to the axis of the insertion end,
The cover is formed in a shape having a third end surface having a perpendicular line intersecting the second end surface and a normal line of the second end surface, and the second end surface is in relation to the first end surface. The endoscope according to claim 3, wherein the endoscope is tilted and the third end surface is provided in a posture orthogonal to the optical axis of the optical system. The optical system is provided such that its optical axis is inclined with respect to the axis of the insertion end,
The cover is formed to have the second end surface and a third end surface parallel to the second end surface, and the second end surface is inclined with respect to the first end surface, and The endoscope according to claim 3, wherein the third end surface is provided in a posture orthogonal to the optical axis of the optical system.

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