JP3678614B2 - Endoscope - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention connects an air supply line and a liquid supply line via a branch part to an air supply / liquid supply line connected to a cleaning nozzle for cleaning the outer surface of the objective lens provided at the distal end of the insertion part. The present invention relates to an endoscope.
[0002]
[Prior art]
A cleaning nozzle for cleaning the outer surface of the objective lens is provided at the distal end of the insertion portion of the endoscope. An air supply conduit for supplying gas and a liquid supply conduit for supplying liquid to the cleaning nozzle Are connected via a single air / liquid supply line. For example, in the endoscope of the application of Japanese Patent Application No. 58-35204 and the endoscope shown in Japanese Utility Model Publication No. 5-8964, an air supply tube forming an air supply line and a liquid supply tube forming a liquid supply line are provided. These are all arranged in the insertion part, and are connected to an air / liquid feeding line consisting of a single pipe near the tip, and are connected to a cleaning nozzle through this one air / liquid feeding line. .
[0003]
[Problems to be solved by the invention]
Conventionally, both the air supply line and the liquid supply line connected to the cleaning nozzle for cleaning the outer surface of the objective lens provided at the distal end of the endoscope insertion part are arranged in the insertion part. In the vicinity of the part, it was bundled into one air / liquid feeding line via a branch part and connected to a cleaning nozzle. In this case, both the air supply line and the liquid supply line are arranged in the insertion portion. For this reason, the installation space has been widely occupied in the insertion portion by the space of both the pipes.
[0004]
In addition, since the air supply line and the liquid supply line are combined into a single air supply / liquid supply line through the branch part in the insertion part, the branch part, the thread winding part for connecting the pipe line, etc. As a result, a larger space was required, and the diameter of the insertion portion was increased.
[0005]
The present invention has been made paying attention to the above circumstances, and the object of the present invention is to easily incorporate into the insertion part and the operation part of the branch part of the air supply line and the liquid supply line. An object of the present invention is to provide an endoscope capable of reducing the diameter of the portion.
[0006]
[Means and Actions for Solving the Problems]
The invention according to claim 1 has a distal end portion including a lens and a cleaning nozzle for supplying and supplying air to the outer surface of the lens, and an insertion portion to be inserted into a body cavity, and the insertion portion An operation part connected to the hand side and having a switching valve for switching between air supply and liquid supply, and has a predetermined length extending from the tip part to the operation part via the insertion part A treatment instrument insertion channel through which a treatment instrument can be inserted, and a hollow body that communicates with the cleaning nozzle and forms a single passage for supplying gas and liquid to the cleaning nozzle. An air / water supply conduit longer than the insertion channel and the switching valve are interposed, an air supply conduit for supplying gas to the air / liquid supply conduit, and the switching valve are interposed, A liquid supply line for supplying liquid to the air / water supply line, and the treatment instrument insertion A branch portion provided nearer to the proximal end of the channel and forming a branch passage that connects the air / liquid supply conduit to the air supply conduit and the liquid supply conduit. It is an endoscope.
[0007]
According to the first aspect of the present invention, the air supply / liquid supply conduit and the branch portion connecting the liquid supply conduit and the air supply conduit are positioned closer to the proximal side in the insertion axis direction than the treatment instrument insertion channel. Therefore, in the insertion part, only the air / liquid supply line exists as the pipe connected to the cleaning nozzle, and it is inserted as compared with the case where both the air supply line and the liquid supply line exist. The diameter can be reduced.
[0008]
The invention according to claim 2 is characterized in that the branch portion includes a pipe-shaped main body conduit and a curved pipe-shaped branch conduit whose front end is joined to a midway side portion of the main body conduit. The endoscope according to claim 1, wherein the main body pipe line and the branch pipe line are arranged substantially in parallel on the proximal side.
In addition to the action of the invention according to claim 1, the action of the invention according to claim 2 is a pipe-like member, so that the cross-section is a circle, and the other built-in object having the same cross-sectional shape of a circle And space can be used efficiently in the cylindrical insertion part.
[0009]
The invention according to claim 3 is the endoscope according to claim 2, wherein an outer diameter of the branch conduit is a dimension equal to or smaller than an outer diameter of the treatment instrument insertion channel.
[0010]
The action of the invention according to claim 3 has the following action in addition to the action of the invention according to claims 1 and 2. That is, the built-in objects on the front side of the branch part are a cable, a light guide, a treatment instrument insertion channel, and an air / liquid supply line, and the built-in objects in the branch part are a main pipe that forms the cable, the light guide, and the branch part. Is a branch line. Since the thickness of the main body pipe and the air / liquid supply pipe connected thereto are substantially the same, the outer diameter of the branch pipe is smaller than the outer diameter of the treatment instrument insertion channel, and the branch section is treated as a treatment tool. When it is positioned closer to the insertion channel than the insertion channel, it can be inserted into the space in the insertion portion where the treatment instrument insertion channel is arranged while the branch line is positioned when the internal component is inserted. In other words, after attaching all the built-in objects including the air / liquid supply line, the branching part, the air supply line, and the liquid supply line to the tip constituent member, all the built-in parts from the tip of the flexible pipe constituting the insertion part Since an object can be inserted, it is not necessary to perform a complicated operation such as attaching the branching part separately and attaching it later, and assembling can be easily performed.
[0011]
DETAILED DESCRIPTION OF THE INVENTION
<First Embodiment>
An endoscope according to a first embodiment of the present invention will be described with reference to FIGS. 1 to 8.
[0012]
The present embodiment shows an embodiment of the invention described in claims 1 to 3 and appendices 1 to 6.
[0013]
(Constitution)
FIG. 1 is an explanatory diagram conceptually showing the configuration of a video endoscope system. The endoscope system 1 includes an endoscope 2, an endoscope light source device 3, and a video processor 4, and a monitor 5, a VTR deck 6, a video disk 7 and a video printer 8 are connected to the video processor 4. .
[0014]
The endoscope 2 includes an insertion portion 11, an operation portion 12, and a universal cord 13. The insertion portion 11 includes a distal end portion 15, a bending portion 16, and a flexible tube 17 connected in that order. Yes.
[0015]
FIG. 2 is a front view of the distal end portion 15 of the insertion portion 11 as viewed from the front. The distal end portion 15 includes an illumination lens 21, an observation lens 22, a cleaning nozzle 23 for cleaning the distal end surface of the observation lens 22, and a distal opening 26 of a treatment instrument insertion passage (channel) 25 described later. It is installed.
[0016]
FIG. 3 is a longitudinal sectional view of a portion along JDKL in FIG. The tip portion 15 has a tip constituent member 27, and is configured by attaching an electrically insulating tip cover 28 to the tip constituent member 27. A plurality of holes communicating from the tip cover 28 to the tip component member 27 are formed in both of them, and various built-in objects as described above are fitted in each hole.
[0017]
The cleaning nozzle 23 is provided with a jet port 31 that opens toward the tip surface of the observation lens 22, and this cleaning nozzle 23 supplies air through a hole 32 formed in the tip component member 27. It is connected to the liquid supply conduit 33. The air / liquid feeding conduit 33 is formed by a tube-shaped member 34, and the front end of the tube-shaped member 34 is connected to the hole 32 formed in the distal end component member 27 through a pipe-shaped member 35. .
[0018]
FIG. 4 is a longitudinal sectional view of a portion along the OM in FIG. A treatment instrument insertion conduit (channel) 25 is connected via a channel pipe 37 following the treatment instrument insertion hole 36 provided over the distal end component member 27 and the distal end cover 28. The treatment instrument insertion conduit 25 is formed by a flexible tubular member 38, and the rear end side of the tubular member 38 located in the operation portion 12 is shown in FIG. Further, the suction pipe branching portion 39 is connected to the tip.
[0019]
Then, a suction line tube 41 and a treatment instrument insertion port 42 are connected to the suction line branch portion 39. That is, the treatment instrument insertion conduit 25 branches to the suction conduit tube 41 and the treatment instrument insertion port 42 via the suction conduit branching portion 39.
[0020]
Further, the suction line tube 41 is connected to a cylinder 44 of a suction operation valve 43 provided in the operation section 12, and the surgeon operates the suction operation button 45 to open the suction line. Suction can be performed from the distal end opening 26 of the treatment instrument insertion conduit 25 provided at the distal end portion 15.
[0021]
Further, FIG. 5 shows piping structures of various pipelines incorporated in the operation unit 12. The proximal end of one tube-shaped member 34 forming the air / liquid feeding conduit 33 communicating with the cleaning nozzle 23 is guided into the operation unit 12, via the air / liquid feeding channel branching portion 46. The front end of the tube 47 forming the liquid supply conduit and the front end of the tube 48 forming the air supply conduit are connected.
[0022]
The middle portions of the liquid supply tube 47 and the air supply tube 48 are both connected to an air / liquid supply cylinder 51 of an air / liquid supply switching valve 50 provided in the operation unit 12. Then, when the operator operates the operation button 52 of the air / liquid supply switching valve 50, the air supply / liquid supply switching valve 50 is switched, and the liquid supply line tube 47 and the air supply line are selectively selected. Through the tube 48, liquid feeding or air feeding is performed from the cleaning nozzle 23 toward the tip surface of the observation lens 22.
[0023]
As shown in FIG. 6, the air / liquid supply line branching portion 46 arranged in the operation portion 12 has one front connecting end portion 55 and two rear connecting end portions 56 and 57 divided into two branches. The main body conduit 58 is formed by a straight pipe-shaped member, and the front connection end 55 and one rear connection end 56 are formed by the front end and the rear end of the main body conduit 58. Is formed. Further, the two rear connection end portions 56 and 57 are arranged in parallel. The other rear connection end portion 57 is formed by a pipe-like member 59 having a bent tip portion, and the tip end is connected to the side portion of the main body conduit 58. The front connection end 55 is connected to the rear end of the tubular member 34 forming the air / liquid supply conduit 33, and the one rear connection end 56 is connected to the air supply tube 48. The other rear connection end 57 is connected with a liquid supply tube 47. Further, at each of the connection end portions 55, 56, 57, the connection end portions of the tube-shaped member 34, the liquid supply tube 47, and the air supply tube 48 are tightened at the outer periphery with the thread-shaped member 60, respectively. Is fixed.
[0024]
As shown in FIG. 5, the suction pipe branching portion 39 is disposed on the distal end side with respect to the air / liquid feeding pipe branching portion 46, and accordingly, the tubular member 34 for the treatment instrument insertion conduit. The rear end of the air supply / liquid supply line branching portion 46 is disposed on the front end side of the air supply / liquid supply line branching portion 46. The air / liquid supply channel branching portion 46 is disposed on the proximal side of the suction pipe branching portion 39, that is, the rear end of the treatment instrument insertion channel (treatment instrument insertion channel) 25.
[0025]
FIG. 7 is a view in which a middle portion of the flexible tube 17 of the insertion portion 11 is cut vertically, and as shown in FIG. In addition to a wire guide 62 fixedly installed on the inner wall of the insertion portion 11 for guiding the pulling wire 61, an imaging unit (not shown) incorporated in the distal end portion 15 is disposed in a free state. A cable 63 connected to the light guide 64, a light guide 64 connected to the illumination lens 21, a tube-shaped member 34 that forms the air / liquid supply conduit 33, and a tube-shaped member 38 that forms the treatment instrument insertion conduit 25. is there.
[0026]
The rear end of the traction wire 61 is connected to a traction device (not shown) installed in the operation unit 12, and the operator operates the traction device by operating a bending operation knob (not shown) provided in the operation unit 12. Then, the pulling wire 61 is pulled, and the bending portion 16 of the insertion portion 11 can be freely bent.
[0027]
The outer diameter of the pipe-shaped member 59 that forms a branch conduit that leads to the liquid-feed conduit tube 47 of the air / fluid conduit branch section 46 is the outer diameter of the tubular member 38 that forms the treatment instrument insertion conduit 25. Is smaller than Further, the axis of the pipe-like member 59 forming the branch pipe and the axis of the tube-like member 38 forming the treatment instrument insertion pipe 25 are arranged so as to be substantially coaxial.
[0028]
The connector 65 of the universal cord 13 of the endoscope 2 is connected to the light source device 3, and the light guide tube portion 66 of the connector 65 faces the light source lamp 67 of the light source device 3 through a condenser lens 68. The connector 65 is connected to the video processor 4 through the signal cable 70.
[0029]
(Function)
Normally, when assembling, each built-in object is inserted into the flexible tube 17 from the bending part 16 from the distal end side with the built-in object inserted through the insertion part 11 attached to the distal end part 15 of the insertion part 11. However, the distal end portion 15, the bending portion 16, and the flexible tube 17 are connected. First, as shown in FIG. 8, as a built-in object incorporated in the flexible tube 17 at the time of assembly, as shown in FIG. 8, a cable 63, a light guide 64, a liquid supply tube 47, an air supply tube 48 or an air supply The liquid feed pipe branching portion 46 is inserted. FIG. 8 is a cross-sectional view of the flexible tube 17 at the time of assembly, and shows a state in which the cable 63, the light guide 64, and the air / liquid supply line branching portion 46 pass.
[0030]
After they pass through the flexible tube 17, the tubular member 38 forming the treatment instrument insertion conduit 25 is inserted into the space occupied by the liquid supply conduit 47 (see FIG. 7). . Therefore, the inner diameter of the flexible tube 17 is such that the cable 63, the light guide 64, and the air / liquid supply line branching portion 46 can be arranged simultaneously as shown in FIG. 8, or the cable 63 as shown in FIG. 63, the light guide 64, the tube-shaped member 34 that forms the air / liquid supply conduit 33, and the tube-shaped member 38 that forms the treatment instrument insertion conduit 25 need only be of a size that can be disposed at the same time. The diameter of can be reduced.
[0031]
Further, when the air / liquid supply line branching portion 46 is arranged in the narrow operation portion 12, if the air / liquid supply line branching portion 46 is attached separately, for example, a base or Although there was not enough space for nuts and the like for fastening and fixing, it was difficult to assemble, but in the present embodiment, the air / liquid supply line branching portion 46 was previously attached to the rear end of the tip portion 15. Since the tube-like member 34 for the air / liquid feeding pipe and all other built-in members can be attached and then inserted into the bending portion 16 and the flexible pipe 17 from the distal end side, the assembling is easy.
[0032]
(effect)
Since the air / liquid supply line branching portion 46 is not located in the flexible tube 17, the diameter of the flexible tube 17 can be reduced accordingly.
Further, since the assembly can be performed with the air / liquid supply line branching portion 46 attached to the tubular member 34 for the air / liquid supply line from the tip portion 15 as in the prior art, a separate air / liquid supply pipe is provided. There is no need for a road branch, and assembly is easy.
[0033]
Second Embodiment
An endoscope according to a second embodiment of the present invention will be described with reference to FIGS. 9 to 12. Embodiment of invention described in the 1st-6th group of additional notes 2 is shown.
[0034]
(Constitution)
The present embodiment is an example of a specific configuration of the distal end portion 15 in the endoscope 2 according to the first embodiment. FIG. 9 is a longitudinal sectional view of the tip portion 15. The tip component member 27 constituting the base of the tip portion 15 is covered with an electrically insulating tip cover 28 over the front surface and the peripheral side surface. Using a plurality of holes provided from the tip cover 28 to the tip component member 27, an imaging unit 69, an illumination lens 21, and an illumination lens 21 configured by the observation lens 22, the solid-state imaging device 68 and the cable 63 are used. A light guide 64 subsequent to is inserted. In addition, although not shown here, a cleaning nozzle 23 for cleaning the tip surface of the observation lens 22, a treatment instrument insertion hole 36, and the like are provided.
[0035]
The bending portion 16 is connected to the rear portion of the tip component member 27. The bending portion 16 has a net-like blade 73 covering the outer periphery of a bending piece portion set 72 in which a plurality of bending pieces 71 that are freely rotatable with respect to each other are connected. Further, a bending rubber 74 is provided outside the blade 73. It is configured to cover. The tip of the curved rubber 74 is fastened and fixed by a thread-like member 75 on the outer periphery of the tip constituting member 27. The base end of the curved rubber 74 is also fastened and fixed by a thread-like member on the outer periphery of a flexible tube (not shown).
[0036]
The distal end of the pulling wire 61 is fixed to the inner periphery of the cutting edge piece 71a located on the cutting edge side of the bending piece 71, and the operator operates a bending operation knob (not shown) of the operation unit 12. The bending portion 16 can be freely bent.
[0037]
As shown in FIG. 10, mounting members 80 are fixed to both ends of the blade 73 with solder, and the blade 73 and the mounting member 80 constitute a blade portion set 81. A long hole 82 is formed in the mounting member 80 located on the front end side along the circumferential direction, and a long hole 83 in the axial direction is formed in the mounting member 80 located on the rear end side.
[0038]
By forming such a long hole 82 and a long hole 83 in each mounting member 80, as shown in FIG. 11 and FIG. The relative position with the screw hole provided on the bending piece 71 side is adjusted, the tension in the axial direction with respect to the bending piece portion set 72 is adjusted, and further, the twist in the circumferential direction can be corrected. ing.
[0039]
FIG. 11 shows a state where the tip portion of the blade part set 81 is fixed to the bending piece 71. That is, a screw 84 provided on the bending piece 71 is screwed through a long hole 82 in the circumferential direction provided on the attachment member 80. The width of the long hole 82 is smaller than the diameter of the head of the screw 84, and the blade portion set 81 can be screw-fixed by adjusting the width in the longitudinal direction of the long hole 82 in the circumferential direction.
[0040]
FIG. 12 shows a state in which the proximal end portion of the blade portion set 81 is fixed to the bending piece portion set 72. A long hole 83 is provided in the mounting member 80 in the axial direction, and the blade part set 81 can be fixed to the bending piece part 72 at an arbitrary position in the axial direction between the widths of the long holes 83. For this reason, the blade 73 can be freely adjusted and attached to the bending piece section 72, for example, by loosening or stretching the blade 73.
[0041]
FIG. 13 is an enlarged vertical cross-sectional view showing the attachment portion of the bending portion 16. The screw 84 passed through the screw hole 86 formed in the rearmost end piece 71b located at the rearmost end of the bending portion 16 is tightened through the long hole 83 of the rearmost mounting member 80, and the mounting member 80 is tightened. It is attached and fixed to the piece 71b. A solder fixing portion 87 for soldering the blade 73 is provided at the front end side portion of the mounting member 80, and the elongated hole 83 is disposed on the rear end side from this.
[0042]
The rearmost end piece 71b and the second rearmost end piece 71c adjacent thereto are connected to each other via a rivet 88 so as to be rotatable, and a rotating portion 89 is formed by both of them. When the rotation part 89 rotates to the maximum, it is comprised so that the last end piece 71b and the 2nd last end piece 71c may mutually contact in an outer peripheral end surface. FIG. 14 shows the state. That is, the mounting member front end 90 which is the front end surface of the mounting member 80 is extended to a position where the rotation portion 89 starts to contact the outer peripheral surface of the second rearmost end piece 71c just when the rotation portion 89 rotates to the maximum. So as to protrude.
[0043]
(Action / Effect)
The mounting member 80 requires a solder fixing portion 87 for fixing the blade 73 with solder or the like and a space for opening the long holes 82 and 83. When the rearmost end piece 71b to which the blade part set 81 is fixed and the second rearmost end piece 71c adjacent thereto rotate to the maximum, the attachment member reaches a position where it touches the outer peripheral surface of the second last end piece 71c for the first time. By extending and forming the front end of 80, the axial length of the mounting member 80 can be increased without impairing the bending function of the bending portion 16 due to the rotation of each bending piece 71. . Further, since the length of the mounting member 80 in the axial direction is long, it is possible to secure a sufficient space for providing the solder fixing portion 87 on the front end side and the long hole 83 on the rear end side.
[0044]
In particular, the rotation part 89 between the last end piece 71b and the second last end piece 71c adjacent thereto is normally the rotation part 89 that first begins to bend when the bending part 16 is bent. Therefore, a so-called shoulder opening, which is a gap between the rearmost end piece 71 b and the second rearmost end piece 71 c, is frequently opened and closed to bend. Therefore, in general, the blade 73 enters the shoulder opening and is between the bending pieces 71. There is a problem that the blade 73 is easily damaged. However, in the structure of the present embodiment, the front end portion of the attachment member 80 is positioned in front of the rearmost turning portion 89, and the blade 73 is difficult to enter the shoulder opening. be able to.
[0045]
Further, by increasing the axial length of the attachment member 80 of the blade 73, a sufficient space for providing the solder fixing portion 87 and the long holes 82 and 83 to the attachment member 80 of the blade 73 can be secured. Therefore, it is possible to open the elongated holes 82 and 83 for adjusting the bending piece of the blade part set 81, avoiding the solder fixing part 87, and the processing is easy. It is possible to provide the bending portion 16 capable of easily attaching / detaching the blade 73 to / from the bending piece 71 without impairing the bending function.
[0046]
<Third Embodiment>
An endoscope according to a third embodiment of the present invention will be described with reference to FIGS. 15 and 16. The present embodiment shows an embodiment of the invention relating to a method for protecting a light guide fiber in the insertion portion of the endoscope.
[0047]
(Constitution)
Also in the endoscope 2 according to this embodiment, the insertion portion 11 is configured in the same manner as described above. FIG. 15 is a longitudinal sectional view of the bending portion 15, and as shown in FIG. 15, in the bending portion 15, the cable 63 following the imaging unit 67 and the air / liquid feeding following the cleaning nozzle 23. A tubular member 34 that forms the conduit 33, a light guide 64 that follows the illumination lens 21, a tubular member 38 that forms the treatment instrument insertion conduit 25, and a plurality of pipe-shaped wire guides through which the pulling wire 61 is inserted. Built-in materials such as 62 are arranged.
[0048]
As shown in FIG. 16, the light guide 64 is configured by bundling a large number of optical fibers and covering the outer periphery thereof with a tube 91 such as silicon. The tip portion of the light guide 64 is inserted into a pipe-shaped base 92, and the base 92 is fixed to the tip constituent member 27, thereby fixing the light guide 64 to the tip portion 15. The bending portion 16 is covered with a protection tube 93 such as so-called Teflon, and the tip of the protection tube 93 is fixed on the base 92 by being bound with a thread or the like. Further, the middle portion of the protective tube 93 in the bending portion 16 is covered with a drop prevention tube 94 that is formed of a heat shrinkable tube or the like and is in close contact with the covering. The rear end of the drop prevention tube 94 is located in front of the connecting portion between the bending portion 16 and the flexible tube 17.
[0049]
As shown in FIG. 15, the outer diameter of the covering portion of the drop-in prevention tube 94 of the light guide 64 is larger than the gap between the adjacent wire guides 62.
[0050]
(Function)
Since the light guide 64 is covered with the drop prevention tube 94 and its outer diameter is increased, there is a movement space as a movement of the light guide 64 on the surface perpendicular to the insertion axis direction in the bending portion 16. There is no entanglement with other built-in objects. In addition, since the gap between the light guide 64 and other built-in objects is also reduced, other built-in objects are not fitted into the light guide 64 and other built-in objects, so that they cannot be moved or crushed.
[0051]
Conventionally, when a built-in object is sandwiched between adjacent wire guides 62, the movement of the built-in object is restricted, and the light guide 64 cannot be moved back and forth during bending. In the embodiment, since the outer diameter of the light guide 64 in the curved portion 16 is larger than the distance between the adjacent wire receivers 62, the light guide 64 is not sandwiched between them, and it is difficult to break.
[0052]
By protecting the protective tube 93 with another drop-preventing tube 94 such as a heat-shrinkable tube, the deformation of the light guide 64 when a pressing force is applied is small, and the fiber fiber is bent. Can be prevented. Further, since only the curved portion 16 is covered with the drop prevention tube 94, the outer diameter of the light guide 64 only needs to be small in the flexible tube 17, so that it is not necessary to make the flexible tube 17 thick.
[0053]
(effect)
According to the configuration of the present embodiment, the flexible tube 17 is not thickened, but the outer diameter of the light guide 64 is increased to prevent unnecessary movement of the built-in material, and the fiber fibers forming the light guide 64 are prevented from bending. Can be prevented.
[0054]
<Fourth embodiment>
An endoscope according to a fourth embodiment of the present invention will be described with reference to FIGS. 17 and 18. This embodiment relates to a method for protecting a light guide fiber in an insertion portion of an endoscope.
[0055]
(Constitution)
FIG. 17 is a longitudinal sectional view of the bending portion 16. In the bending portion 16, the cable 63, the tubular member 34 that forms the air / liquid feeding conduit 33, the flexible tubular member 38 that forms the treatment instrument insertion conduit 25, the first light guide 101 and the second light guide 101. Two light guides of the light guide 102 are fitted inside.
[0056]
Each of the light guides 101 and 102 is configured by bundling optical fiber fibers in a silicon tube and attaching a metal pipe base 92 to the tip, similarly to the light guide 64, but in the bending portion 16, it is further made of Teflon. These are covered by protective tubes 103 and 104, respectively. The front ends of these protective tubes 103 and 104 are fixed by being bound to the outer periphery of the tip cap 92 with a thread or the like. The rear ends of the protective tubes 103 and 104 extend further to the inner region of the flexible tube 17 on the rear end side than the curved portion 16. That is, as shown in FIG. 18, the position of the rear end of the first protective tube 103 covered with the first light guide 101 and the rear end of the second protective tube 104 covered with the second light guide 102 are The second protective tube 104 is displaced in the insertion direction, and the rear end of the second protective tube 104 is located 50 to 200 mm rearward from the rear end of the first protective tube 103.
[0057]
(Function)
The light guides 101 and 102 are formed by bundling a number of optical fiber fibers and covering with a silicon tube or the like. When the number of fibers is small, the bundled light guides 101 and 102 do not have a waist, and once they are bent, the force for linearization is weak.
[0058]
In the light guides 101 and 102 located in the flexible tube 11, the bending portion 16 is bent, and when the light guides 101 and 102 move back and forth, the protection tube 103 and the bending strength abruptly change. The slack accumulates at the end of 104 and does not return to a straight line. When the light guides 101 and 102 are adjacent to each other, the slacks are entangled with each other, restricting the movement in the front-rear direction, and tension is applied to the light guides 101 and 102 when the endoscope is bent. It has occurred. In addition, when the slackness is fixed to each other, bending force is applied and the seat is bent.
[0059]
In particular, in recent years, the number of fibers of the light guides 101 and 102 has been reduced due to a demand for reducing the diameter of the endoscope, and this problem has become remarkable. In the present embodiment, the positions of the rear ends of the protection tubes 103 and 104 of the light guides 101 and 102 adjacent to each other are shifted in the insertion axis direction, so that the positions where the slack occurs are different from each other, and the slacks may be entangled. Absent. Therefore, the movement of the light guides 101 and 102 is not restricted, and the light guides 101 and 102 can be prevented from being broken.
[0060]
(effect)
By shifting the positions of the ends of the protection tubes 103, 104 of the adjacent light guides 101, 102 in the insertion axis direction, the slack position of the light guides 101, 102 can be shifted by both, so that the slacks are entangled. Therefore, the movement of the light guides 101 and 102 can be prevented.
[0061]
<Fifth Embodiment>
An endoscope according to a fifth embodiment of the present invention will be described with reference to FIGS. 19 and 20. The present embodiment shows a specific structure of an air / liquid supply line branching section that connects an air / liquid supply line, an air supply line and a liquid supply line.
[0062]
(Constitution)
FIG. 19 is a vertical cross-sectional view of the air / liquid supply line branching portion 46. As shown in FIG. 19, a conical base 111 having a taper in a direction in which the diameter increases from the front to the rear is formed at the front end of the air / liquid supply line branching portion 46. A rear end of a tubular member 34 that forms an air / liquid feeding conduit 33 is formed in the base 111. The outermost outer diameter of the mouthpiece 111 is smaller than the inner diameter of the air / liquid feeding conduit 33, and then tapered so that the diameter becomes larger than the inner diameter of the air / liquid feeding conduit 33. It has spread. A threaded portion 112 is provided on the rear side of the tapered portion, and in the state where the rear end portion of the tubular member 34 for the air / liquid feeding conduit is connected to the base 111, the tube for the air / liquid feeding conduit The inner member 34 is expanded in inner diameter, covered with the base 111, and tightened with a nut-like fastening member 113 thereon, whereby the air-feeding / feeding-pipe tubular member 34 is fed into the air-feeding / feeding tube. The road branch 46 is fixed in a watertight manner.
[0063]
The front end of the tubular member 34 for the air / liquid supply conduit is connected to the tip constituting member 27 and further connected to the cleaning nozzle 23 located at the tip of the tip constituting member 27, and is fed through the cleaning nozzle 23. Gas and liquid feeding are performed.
[0064]
The air / liquid feeding pipe branching portion 46 is formed with a main body pipe 115 communicating with a hole penetrating linearly from the front mouthpiece portion 111 to the rear end. A pipe-shaped liquid supply line connecting portion 116 is provided integrally with the air / liquid supply line branching portion 46 at the rear end side opening of the main body line 115. Further, the inside of the main body pipe line 115 is bent in an L-shape from the middle part of the main body pipe line 115 inside the air / liquid supply line branch part 46, Branch pipes 117 having openings at different positions are made. A pipe-shaped air supply pipe connection portion 118 is also integrally provided at the opening of the branch pipe 117. Further, a liquid supply line tube 47 is connected to the liquid supply line connection part 116, and an air supply line tube 48 is connected to the air supply line connection part 118. Both the liquid supply tube 47 and the air supply tube 48 are led into the operation unit 12 and connected to an air supply / liquid supply cylinder 51 of an air supply / liquid supply switching valve 50 provided in the operation unit 12. Has been.
[0065]
(Function)
In general, as shown in FIG. 20, the air / liquid feeding line branching portion 46 is joined to another bent pipe-like member in the middle of the pipe-like member to form the air / liquid feeding line branching portion 46. Was. When this type of air / liquid supply line branching portion 46 is incorporated into the endoscope 2, it is connected to the tubular member 34 for the air / liquid supply line connected to the distal end portion 15 and the operation unit 12. In order to connect to the liquid supply pipe tube 47 and the air supply pipe tube 48, it is necessary to separately provide a connection pipe cap 121 in front and rear of the air / liquid supply pipe branching portion 46. was there. For example, a pipe base 121 that is tapered toward the front is connected to the air / liquid supply line branching portion 46 via the tubes 122, and the tubes are also provided behind the air / liquid supply line branching portion 46. Therefore, it is necessary to provide the pipe cap 121 connected to each of the air supply line and the liquid supply line via 122, which increases the total length of the air supply / liquid supply line branching portion 46 in the insertion axis direction. It was. When connecting a pipe such as the air / liquid feeding pipe 33 to the pipe base 121, the fastening member 113 is passed through each pipe first, and then the end of the pipe is connected to the pipe base 121. Since the taper portion is expanded and molded so as to be inserted, an assembling space corresponding to the axial length of the relief portion of the fastening member 113 and the molding portion is required. When attaching the air supply / liquid supply line branching portion 46 in the operation unit 12, if the entire length of the air supply / liquid supply line branching portion 46 is too long, the above-described assembly space is sufficiently accommodated in the operation unit 12. It was difficult to assemble.
[0066]
However, in this embodiment, since the air / liquid feeding channel branching portion 46 integrally has the base 111 and the connecting portions 116 and 117, the entire length of the air / liquid feeding channel branching portion 46 is short. As a result, a sufficient assembling space can be secured before and after the air supply / liquid supply line branching portion 46 is attached, and assembly is easy.
[0067]
(effect)
By providing the mouthpiece 111 and the connecting portions 116 and 117 integrally with the air / liquid feeding pipe branching portion 46, it is easy to assemble each pipe line to the air / liquid feeding and pipe branching portion 46.
[0068]
In addition, it is good also as a form which uses the liquid supply line connection part 116 which connects the tube 47 for liquid supply lines, and the air supply line connection part 117 which connects the tube 48 for air supply lines upside down.
[0069]
<Sixth Embodiment>
An endoscope according to a sixth embodiment of the present invention will be described with reference to FIGS. In the present embodiment, the connection portion between the flexible tube 17 and the operation portion 12, the connection portion between the operation portion 12 and the universal cord 13, and the connection portion between the universal cord 13 and the connector 65 in the insertion portion 11 of the endoscope 2. 3 shows a specific structure of a buckling prevention portion for preventing buckling in the case of FIG.
[0070]
(Constitution)
As shown in FIG. 21, the connection part between the operation part 12 of the endoscope 2 and the flexible tube 17 of the insertion part 11, the connection part between the operation part 12 and the universal cord 13, the universal cord 13 and the connector 65. A buckling prevention member 123 is attached to each of the connection portions between the two.
[0071]
These buckling prevention members 123, as shown in FIG. 22, have a cylindrical elastic member 124 formed of an elastic member, an operation portion 12, and a connection member 125 provided with a screw portion for connection. Do it. The elastic member 124 is formed in a taper shape so that the diameter increases from the front to the rear.
[0072]
Hereinafter, although the buckling prevention member 123 regarding the connection part between the operation part 12 and the flexible tube 17 of the insertion part 11 is demonstrated, the structure is the same also about another connection part.
[0073]
Both the elastic member 124 and the connecting member 125 are provided with a flexible tube insertion hole 126 for inserting the flexible tube 17 so as to penetrate from the front to the rear. Since the outer shape of the elastic member 124 is formed in a tapered shape, the thickness of the elastic member 124 changes so as to continuously increase from the front to the rear. A slit 127 that allows the flexible tube insertion hole 126 to communicate with the outside is provided on the side of the elastic member 124 over the entire length in the axial direction. A cutout portion 128 that allows the flexible tube insertion hole 126 to communicate with the outside is also provided in the side portion of the connecting member 125 at the same position as the slit 127 in the circumferential direction. The opening width in the circumferential direction of the notch 128 is larger than the outer diameter of the flexible tube 17.
[0074]
A cover 131 is attached to the outside of the buckling prevention member 123 so as to cover it. A cover slit 132 is also provided on the side of the cover 131. FIG. 23 is a cross-sectional view of the cover 131. When the cover 131 is attached to the flexible tube 17, the slit 127 and the notch 128 of the buckling prevention member 123 and the cover slit 132 provided in the cover 131 are circumferential. The position of is shifted. The cover 131 is fixed to the flexible tube 17 of the endoscope 2 with an elastic adhesive. An adhesive is also applied and fixed to the inner surfaces of the slit 127 and the cover slit 132.
[0075]
As shown in FIG. 24, the slit 127 provided in the elastic member 125 of the buckling prevention member 123 may have a circumferential cut in the middle of the radial cut. In this case, the flexible tube 17 After the insertion, the adhesive applied to the inner surface of the slit 127 is more difficult to peel off in the circumferential direction.
[0076]
(Function)
The conventional buckling prevention member is only provided with a hole penetrating in the axial direction so that the flexible tube 17 or the universal cord 13 can be inserted. Therefore, the buckling prevention member 123 used for the connection portion between the operation unit 12 and the flexible tube 17 needs to be attached to the flexible tube 17 after passing through the distal end portion 15, and has a larger diameter than the flexible tube 17. When the distal end portion 15 is provided, the inner diameter of the buckling prevention member 123 has to be greatly widened, and attachment is difficult. In the case of the buckling prevention member 123 between the operation unit 12 and the universal cord 13, a connector 65 whose outer diameter is much larger than the diameter of the universal cord 13 is connected to the end of the universal cord 13. For this reason, in order to replace the buckling prevention member 123 after assembling the connector 65, a very difficult operation such as removing the connector 65 has been involved.
[0077]
In this embodiment, the elastic member 124 is provided with a slit 127 on the side of the buckling prevention member 123, and the connection member 125 is provided with a notch 128 so that the circumferential positions are substantially the same. Yes. Since the slit 127 is elastically deformed and spreads from the outer diameter of the flexible tube 17 or the universal cord 13, the slit 127 passes through the slit 127 and the notch 128 from the side portion of the buckling prevention member 123 and passes through the flexible tube 17 or the universal tube 13. The cord 13 can be inserted into the insertion hole 126 of the buckling prevention member 123.
[0078]
Here, even if the distal end portion 15 is larger than the flexible tube 17, it is not necessary to perform a complicated operation of pushing the insertion hole 126 large and attaching it from the distal end, and the connector 65 is also removed from the universal cord 13 side. The buckling prevention member 123 can be easily removed and attached without any problems.
[0079]
(effect)
By allowing the buckling prevention member 123 and the cover 131 to be attached to the flexible tube 17 and the universal cord 13 from the side portions, the buckling prevention member 123 and the cover 131 can be easily repaired and replaced.
[0080]
<Seventh embodiment>
A seventh embodiment of the present invention will be described with reference to FIG. The present embodiment is a specific example in which a blade unit set in an insertion portion of an endoscope is configured to be detachable.
[0081]
(Constitution)
FIG. 25 is a longitudinal sectional view of the vicinity of the distal end portion 15 in the insertion portion 11 of the endoscope. A tip cover 28 formed of an electrically insulating member such as resin is attached to the tip surface of the tip component member 27 formed of a metal member. A plurality of built-in objects such as an illumination lens 21, an observation lens 22, and a treatment instrument insertion conduit tube are disposed on the distal end component member 27.
[0082]
As previously shown in FIG. 9, the bending portion 16 is connected to the rear end of the tip constituting member 27. The bending portion 16 is composed of a plurality of bending pieces 71 that are connected to each other so as to be pivotable. As described above, the bending piece 71 is covered with a blade 73 in which a metal wire or chemical fiber is braided in a net shape (see FIG. 10). The blade 73 has ring-shaped attachment members 80 fixed to both ends thereof, for example, by soldering to constitute a blade portion set 81. The attachment member 80 is fixed to the bending piece 71 or the like with a screw or the like, so that the blade portion set 81 can be attached to the bending portion 16 in a detachable manner.
[0083]
The tip cover 28 includes a side cover 141 and a front cover 142 that can be divided. The front cover 142 has a diameter substantially the same as the diameter of the front surface of the tip component member 27, while the side cover 141 has a through-hole 143 having the same diameter as the outer diameter of the front cover 142 at the center thereof. .
[0084]
As shown in FIG. 25, in a state where the side cover 141 and the front cover 142 are attached to the tip component member 27, the front cover 142 is tightly attached to the hole portion of the through hole 143 provided at the center of the side cover 141. Fitted.
[0085]
The outer diameter of the front cover 142 is smaller than the inner diameter of the mounting member 80 of the curved portion 16, and the outer diameter of the side cover 141 is larger than the inner diameter of the mounting member 80. The front cover 142 is formed of a soft member, and the side cover 141 is formed of a hard member.
[0086]
(Action / Effect)
Since the outer diameter of the front cover 142 is smaller than the inner diameter of the mounting member 80, when replacing the blade part set 81, when removing the blade part set 81, only the side cover 141 of the tip cover 28 is removed. The blade part set 81 can be removed from the front while leaving the front cover 142.
[0087]
Since it is not necessary to remove the front cover 142 on which the illumination lens 21 and the observation lens 22 are disposed, the lens or the like is not damaged when the cover or the like is removed.
[0088]
Further, since the front cover 142 is soft, it can absorb the impact transmitted to the lens. On the other hand, since the side cover 141 is hard, it is hard to be damaged even if it receives an impact.
[0089]
Further, since a part of the tip cover 28 can be removed and the blade portion set 81 can be replaced without damaging the lens, the repair is easy.
[0090]
The present invention is not limited to the embodiment described above. According to the description of each of the above embodiments, at least the matters listed below and the matters of arbitrary combinations thereof can be obtained.
[0091]
<Appendix>
(1 group)
1. A treatment instrument insertion channel that is formed from the distal end portion of the insertion section to the operation section and allows the treatment instrument to be inserted;
An observation lens provided at the distal end of the insertion portion;
A cleaning nozzle provided at the tip portion facing the outer surface of the observation lens;
A single air / liquid supply line connected to the cleaning nozzle and supplying gas and liquid to the cleaning nozzle;
An air supply line and a liquid supply line connected to the air / liquid supply line via a branch part;
In the endoscope that performs air supply / liquid supply from the air supply line and the liquid supply line to the air / liquid supply line through the branch portion,
An endoscope characterized in that the branch portion is disposed on the proximal side from the rear end of the treatment instrument insertion channel.
[0092]
2. The branch part is configured with a single pipe-like member as a main body pipe, and the distal end of the branch pipe formed by the curved pipe-like member is joined to the middle side of the main pipe, The endoscope according to item 1, wherein the main body pipe line and the branch pipe line are substantially parallel to each other.
[0093]
3. 3. The endoscope according to item 2, wherein the outer diameter of the branch pipe member forming the branch portion is set to a dimension equal to or smaller than the outer diameter of the member forming the treatment instrument insertion channel.
[0094]
4). The endoscope according to item 3, wherein the central axis of the treatment instrument insertion channel is positioned near a plane including the main body pipe of the branching section and the central axis of the branching pipe.
[0095]
5. The endoscope according to item 4, wherein the central axis of the treatment instrument insertion channel is located on the side where the branch pipe is located.
[0096]
6). The endoscope according to item 5, wherein the axis of the branch pipe line of the branch portion and the axis of the treatment instrument insertion channel are arranged substantially coaxially.
[0097]
The thing of the 1st-3rd item has the same effect | action as the above-mentioned Claims 1-3. Furthermore, since the branch part in the fourth and fifth items has a composite cross section of the main body pipe line and the branch pipe line, it is substantially elliptical. Since the treatment instrument insertion channel is positioned in the major axis direction of the cross-section of the branch portion, the branch conduit is likely to be accommodated in the space occupied by the member forming the treatment instrument insertion channel in the flexible tube when the built-in object is inserted. Further, in the sixth aspect, when the branch conduit and the treatment instrument insertion channel are coaxial, the positions of the branch conduit and the treatment instrument insertion channel at the branch portion are substantially the same in a cross section perpendicular to the insertion axis. The branch pipes are more easily accommodated in the space occupied by the member forming the treatment instrument insertion channel in the flexible tube when the built-in object is inserted than in the fourth and fifth items.
[0098]
(2 groups)
1. The insertion portion has a bending portion made up of a plurality of tubular bending pieces, and the bending portion is formed by attaching a ring-shaped attachment member to both ends of the blade and a plurality of bending pieces. In the endoscope formed by detachably fixing to both ends of the bending piece parts connected to each other freely,
The position of the end portion of the mounting member in the axial direction is determined by the second end portion when the endmost turning portion formed by the endmost piece and the second endmost piece adjacent to the endmost piece is curved to the maximum. An endoscope characterized in that the endoscope is extended to the vicinity of a position where the outer periphery of the outermost piece and the inner periphery of the mounting member come into contact for the first time.
[0099]
2. When the position of the front end of the mounting member in the axial direction is bent to the maximum when the rearmost end turning portion formed by the rearmost end piece and the second rearmost end piece located at the second position from the rearmost portion is curved, The endoscope according to item 1, wherein the endoscope is extended to a position near the position where the outer periphery of the last piece and the inner periphery of the mounting member are in contact with each other for the first time.
[0100]
3. The endoscope according to item 1, wherein the position of the front end of the mounting member is positioned in front of the rearmost end rotating portion.
[0101]
4). The endoscope according to claim 1, 2, or 3, further comprising means for adjusting a fixed position of the blade part set in accordance with the dimension of the bending piece part set.
[0102]
5. The endoscope according to claim 4, wherein a long hole in the axial direction is provided in the mounting member.
[0103]
6). The endoscope according to claim 1, 2, 3, 4, or 5, wherein the attachment member is fixed to the blade with solder.
[0104]
(Conventional example of 2 groups)
In general, an insertion portion of an endoscope is formed by connecting a flexible flexible tube, a bending portion, and a distal end portion in order from the hand side. Among these, the bending portion allows a plurality of tubular bending pieces to freely rotate with respect to each other. The outer periphery of the connected bending piece part group is formed by covering a blade formed by knitting metal or chemical fiber or the like into a cylindrical shape.
[0105]
Japanese Patent Laid-Open No. 4-357921 discloses an endoscope in which a blade part set covering a curved pipe part set can be attached and detached.
[0106]
(Group 2 issues)
Conventionally, ring-shaped mounting members are fixed to the front and rear ends of the blade assembly by soldering or the like, and the mounting members are fixed to the front end and rear end of the bending piece assembly with screws or the like. The assembly was made removable. In addition, the mounting member is provided with a long slot in the axial direction or circumferential direction, and by adjusting the relative position with the mounting hole on the bending tube core material side, the tension and twisting of the blade with respect to the bending tube core material can be reduced. It was adjustable. The long hole was processed after the mounting member was fixed to the blade with solder or the like. At this time, in the axial direction of the mounting member, a fixed portion with solder and a space for opening the long hole are required. In the case where the length cannot be obtained sufficiently, there is a problem that machining is difficult because a long hole is made avoiding solder, and a long hole sufficient for adjustment cannot be made.
[0107]
(Action of group 2)
Action of the 1st and 2nd term: The endmost turning part formed by the endmost piece of the bending part having a plurality of bendable turning parts and the second endmost piece second from the endmost piece is The blade is fixed on the mounting member by extending the axial length of the mounting member to a position where the outer periphery of the second end piece and the inner periphery of the mounting member are in contact with each other for the first time when bent to the maximum. It is possible to easily secure a working space and a space for providing means for attaching to a bending piece such as a screw hole. Therefore, the blade can be easily attached to and detached from the bending piece part set, and the outer circumference of the second end piece and the inner circumference of the mounting member do not come in contact until the end turning part moves maximum. The bending function is not impaired.
[0108]
Action of the third term: In addition to the actions of the first and second terms, it has the following actions. The frequency of bending of the rearmost rotation part is the highest, but since the mounting member is located on the front side of the rearmost rotation part, the blade has flexibility only on the front side of the rearmost rotation part, The so-called shoulder opening, which is a gap between the last end piece and the second last end piece formed in the last end turning portion, is almost free from the soft portion of the blade. Therefore, the blade can be prevented from dropping into the shoulder and the blade can be prevented from being damaged.
[0109]
Actions of items 4 and 5: In addition to the actions of items 1 and 2, the following actions are provided. By adjusting the mounting of the mounting member, it is possible to eliminate the slack and twist of the blade section from the bending piece section. Therefore, it is possible to prevent the blade from dropping into the shoulder and applying unnecessary tension, and to prevent the blade from being damaged. The bending angle does not become insufficient due to excessive tension of the blade with respect to the bending portion group.
[0110]
Action of item 6: Since the blade is fixed to the mounting member with solder, the processing is easy and sufficient mounting strength can be obtained.
[0111]
(Effect of 2 groups)
Effects of the first and second items: The blade part set can be attached to and detached from the bending piece part set without making processing difficult.
Effect of the third term: In addition to the effects of the first and second terms, the blade can be prevented from falling into the shoulder and can be prevented from being damaged.
Effects of items 4 and 5: In addition to the effects of items 1 to 3, the desired function and resistance of the curved portion can be easily obtained.
Effect of Item 6: In addition to the effects of Claims 1 to 5, the blade can be fixed easily and with sufficient strength.
[0112]
【The invention's effect】
As described above, according to the present invention, it is possible to provide an endoscope that can easily assemble a branch portion of an air supply conduit and a liquid supply conduit and can reduce the diameter of an insertion portion that incorporates these. It is in.
[Brief description of the drawings]
FIG. 1 is an explanatory diagram conceptually showing an endoscope system according to a first embodiment of the present invention.
FIG. 2 is a front view of the distal end portion of the endoscope of the system as viewed from the front.
FIG. 3 is a longitudinal sectional view of a portion along JDKL in FIG. 2;
4 is a longitudinal sectional view of a portion along OM in FIG. 2. FIG.
FIG. 5 is an explanatory diagram of a piping structure of various pipes incorporated in the operation unit of the endoscope.
FIG. 6 is a vertical cross-sectional view of an air / liquid supply line branching portion disposed in the operation unit of the endoscope.
FIG. 7 is a longitudinal sectional view of a middle portion of the flexible tube of the insertion portion of the endoscope.
FIG. 8 is a longitudinal sectional view of a middle portion of the flexible tube when the insertion portion of the endoscope is assembled.
FIG. 9 is a longitudinal sectional view of a distal end portion of an endoscope according to a second embodiment.
FIG. 10 is a perspective view of a blade unit set incorporated in the endoscope.
FIG. 11 is an external view of an assembled state of the front end of the blade part assembly.
FIG. 12 is an external view of a state in which the rear end of the blade part assembly is assembled.
FIG. 13 is an enlarged longitudinal sectional view showing a mounting portion of the bending portion of the endoscope.
FIG. 14 is a diagram of the last end piece and the second last end piece when the last end piece of the bending portion of the endoscope and the second last end piece adjacent thereto are rotated to the maximum via the turning portion; Explanatory drawing which showed a mode.
FIG. 15 is a longitudinal sectional view of a bending portion in an insertion portion of an endoscope according to a third embodiment of the present invention.
FIG. 16 is a perspective view of a light guide of the endoscope.
FIG. 17 is a longitudinal sectional view of a bending portion in an insertion portion of an endoscope according to a fourth embodiment of the present invention.
FIG. 18 is an explanatory diagram of an arrangement state of light guides arranged in the insertion portion of the endoscope.
FIG. 19 is a vertical cross-sectional view of an air / liquid supply line branching portion of an endoscope according to a fifth embodiment of the present invention.
FIG. 20 is a side view of a general air / liquid supply line branching portion.
FIG. 21 is an external view of an endoscope according to a sixth embodiment of the present invention.
FIG. 22 is an explanatory diagram of a procedure for assembling a buckling prevention member according to a sixth embodiment of the present invention.
FIG. 23 is a longitudinal sectional view of an assembly portion of a buckling prevention member according to a sixth embodiment of the present invention.
FIG. 24 is a longitudinal sectional view of a modified example of the buckling prevention member.
FIG. 25 is a longitudinal sectional view of a distal end portion of an endoscope according to a sixth embodiment of the present invention.
[Explanation of symbols]
2 ... endoscope, 11 ... insertion part, 12 ... operation part, 15 ... tip part,
16 ... curved portion, 17 ... flexible tube, 22 ... observation lens, 23 ... cleaning nozzle,
25 ... Treatment instrument insertion conduit, 33 ... Air / liquid supply conduit, 34 ... Tubular member,
38 ... flexible tubular member, 39 ... suction line branching part,
41 ... Tube for suction line, 42 ... Treatment instrument insertion port, 46 ... Air supply / liquid supply line branch part,
47 ... Tube for liquid supply conduit, 48 ... Tube for air supply conduit.

Claims (3)

An insertion portion having a distal end portion provided with a cleaning nozzle for supplying air and liquid to the outer surface of the lens and the lens, and being inserted into a body cavity;
An operation unit connected to the proximal side of the insertion unit and having a switching valve for switching between air supply and liquid supply;
A treatment instrument insertion channel having a predetermined length extending from the distal end portion to the operation portion via the insertion portion, and capable of inserting a treatment instrument;
An air / water supply conduit that is communicated with the cleaning nozzle and is formed of a hollow body that forms a single passage for supplying gas and liquid to the cleaning nozzle, and is longer than the treatment instrument insertion channel;
The switching valve is interposed, an air supply line for supplying gas to the air / liquid supply line,
The switching valve is interposed, and a liquid supply line for supplying liquid to the air / water supply line,
A branching portion that is provided closer to the proximal end than the proximal end of the treatment instrument insertion channel, and forms a branching path that communicates the air / fluid feeding conduit with the air feeding conduit and the fluid feeding conduit;
An endoscope comprising: The branch portion includes a pipe-shaped main body conduit, and a curved pipe-shaped branch conduit whose tip is joined to a midway side portion of the main body conduit,
The main body pipe and the branch pipe are arranged substantially parallel on the hand side,
The endoscope according to claim 1. The outer diameter of the branch pipe is a dimension equal to or smaller than the outer diameter of the treatment instrument insertion channel.
The endoscope according to claim 2.

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