JP3776816B2 - Endoscope - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an endoscope in which a bend preventing member for preventing a bend of a soft portion is provided at a portion connecting a soft portion and an operation portion of an insertion portion.
[0002]
[Prior art]
The specification and drawings attached to the unpublished application of Japanese Patent Application No. 10-1747 (see Japanese Patent Application Laid-Open No. 11-197101) are provided with a hardness adjusting means capable of adjusting the hardness of the flexible portion of the endoscope. The configuration is shown. According to this, the hardness of the flexible part of the endoscope can be changed by operating the hardness adjustment knob provided in the operation part. The hardness adjusting knob is provided in the vicinity of the bend preventing member.
[0003]
A connecting portion between a flexible portion and a manipulation portion of a general endoscope is configured as shown in FIG. That is, the cylindrical tube 143 is fixed inside the exterior member 142 of the operation unit 141, and a flange portion 144 protruding inward is integrally formed at the tip of the cylindrical tube 143. A cylindrical rear end cap 146 is provided at the rear end portion of the soft portion 145. A flange portion 147 projecting outward is integrally provided at the rear end of the rear end cap 146, and the flange portion 147 is in contact with the end wall of the flange portion 144. Further, a male screw 148 is formed on the outer peripheral surface of the rear end cap 146 so as to be located slightly on the front end side with respect to the flange portion 147 on the cylindrical tube 143 side. A nut 149, which is a ring-shaped member having a female thread cut, is screwed onto the male thread 148. When the nut 149 is screwed into the male screw 148, the nut 149 is abutted against the flange portion 144, and the flange portion 144 is tightened between the flange portion 147 of the rear end cap 146, thereby softening the cylindrical tube 143. The rear end cap 146 of the portion 145 is attached and fixed without looseness.
[0004]
On the other hand, the bend preventing member 152 is a cylindrical rubber member 153 that covers the outer periphery of the rear end portion of the soft portion 145, and a cylindrical metal member that is integrally provided on the inner peripheral portion of the rear end of the rubber member 153. A certain support member 154 is provided. A female screw 155 is formed on the inner surface of the rear end portion of the support member 154. By screwing the female screw 155 into a male screw 151 formed on the outer periphery of the cylindrical tube 143, the folding preventing member 152 is screwed and fixed to the cylindrical tube 143 of the operation unit 141. The inner surface of the distal end side end portion of the rubber member 153 of the anti-bending member 152 is relatively strongly adhered to the outer surface of the soft portion 145.
[0005]
[Problems to be solved by the invention]
Since the hardness adjustment knob is provided in the vicinity of the bending prevention member provided at the connection portion between the flexible portion and the operation portion of the general endoscope, the hardness adjustment knob is erroneously stopped together with the hardness adjustment knob. The member may also be gripped, and a rotational force may be applied to the folding member together with the hardness adjustment knob. When a rotational force is applied to the anti-bending member having the above-described structure, the anti-bending member rotates around its central axis, and thus has the following problems.
[0006]
In the structure described above, when the rotational force at the center of the shaft is applied to the folding preventing member 152 in a certain direction, the connection of the folding preventing member 152 is loosened. At this time, a strong shearing force is generated at the portion where the rubber member 153 and the soft portion 145 on the distal end side of the folding preventing member 152 are in close contact with each other, and the outer surface of the flexible portion 145 and the distal end portion of the folding preventing member 152 are damaged. There was a fear that it would end up. In particular, in colonoscopy, the soft part of the insertion part is gripped and the twisting operation is performed quite frequently, and at this time, the folding member is often gripped by mistake and twisting is frequently performed. Such a problem was easy to occur.
[0007]
This is not limited to endoscopes that change the hardness of the soft part, but is a problem common to endoscopes having an operation knob that rotates around its central axis in the vicinity of the anti-bending member. A similar problem occurs when an operation knob for adjusting the optical zoom is provided in the vicinity of the anti-folding member.
[0008]
The present invention has been made in view of the above circumstances, and an object of the present invention is to provide an endoscope that can prevent a folding member from being erroneously operated.
[0009]
[Means for Solving the Problems]
The present invention comprises an elongated flexible part that can be inserted into a body cavity,
A cylindrical support member provided at a rear end of the soft part and supporting the soft part;
An inner surface that contacts the outer surface of the soft part and is formed of a flexible resin, and is fitted to the support member;
An operation knob provided on the support member and provided with an outer peripheral surface having a thicker rear end side with respect to the front end side, and an operation knob that is rotated in a circumferential direction around the support member;
It is an endoscope characterized by comprising.
[0010]
Another invention is an elongated flexible part that can be inserted into a body cavity;
A cylindrical support member provided at a rear end of the soft part and supporting the soft part;
An inner surface that contacts the outer surface of the soft part and is formed of a flexible resin, and is fitted to the support member;
An operation knob provided on the support member and provided with an outer peripheral surface having a large diameter at the front end side with respect to the rear end side and rotated in a circumferential direction around the support member. When,
It is an endoscope characterized by comprising.
[0011]
DETAILED DESCRIPTION OF THE INVENTION
An endoscope according to an embodiment of the present invention will be described with reference to FIGS.
[0012]
(Constitution)
As shown in FIG. 1, an endoscope apparatus 1 includes an electronic endoscope 2 incorporating an imaging unit, a light source device 3 that supplies illumination light to the endoscope 2, and the endoscope 2. The image processing apparatus includes a signal processing device 4 that performs signal processing on the output imaging signal, and a color monitor 5 that displays an image on a screen using a video signal output from the signal processing device 4.
[0013]
The endoscope 2 includes an elongated insertion portion 6, a large-diameter operation portion 7 connected to the rear end of the insertion portion 6, and a universal cable 8 extending from a side surface portion of the operation portion 7. A connector 9 that can be detachably connected to the light source device 3 is provided at the extended tip of the universal cable 8.
[0014]
The insertion portion 6 includes a rigid distal end portion 11 from the distal end side, a bendable tubular curved portion 12 coupled to the rear end of the distal end portion 11, and a long length coupled to the rear end of the curved portion 12. It consists of a flexible tubular portion 13 having flexibility, and the front end of the operation portion 7 is connected to the rear end of the flexible portion 13. A bend preventing member 10 to be described later is fitted on the outer periphery of the rear end portion of the soft portion 13, and the bend preventing member 10 is attached to a connection portion between the soft portion 13 and the operation portion 7.
[0015]
In the endoscope 2, a light guide 14 composed of a fiber bundle having flexibility and a function of transmitting illumination light is inserted through the insertion portion 6, the operation portion 7, and the universal cable 8. One end of the light guide 14 is connected to a light guide connector portion 15 fixed so as to protrude from the connector 9, and the other end of the light guide 14 is connected to the illumination window of the tip portion 11. Then, by connecting the connector 9 to the light source device 3, the light guide connector portion 15 faces the lamp 16 in the light source device 3, and the illumination light of the lamp 16 is condensed by the lens 17, and the light guide connector portion. The light is incident on the 15 incident end faces.
[0016]
The illumination light transmitted by the light guide 14 is emitted forward from the illumination window of the distal end portion 11 and illuminates a subject such as an affected area. When an object is illuminated, a charge coupled device (hereinafter abbreviated as CCD) is provided as an imaging device having a function of performing photoelectric conversion by an objective lens 18 attached to an observation window provided at the distal end portion 11 adjacent to the illumination window. The optical image is formed on 19 light receiving surfaces. The CCD 19 converts the optical image into an electric signal.
[0017]
One end of a signal cable 21 is connected to the CCD 19. The signal cable 21 is inserted through the insertion portion 6, the operation portion 7 and the universal cable 8, and the rear end thereof is connected to an electrical connector 22 provided on the connector 9. An external cable 23 is connected to the electrical connector 22, and the external cable 23 is connected to the signal processing device 4. Then, the CCD drive signal generated by the drive circuit 24 of the signal processing device 4 is applied to the CCD 19, whereby the imaging signals photoelectrically converted by the CCD 19 are sequentially read out. This image pickup signal is input to a signal processing circuit 25 in the signal processing device 4 and converted into a standard video signal. This video signal is input to the color monitor 5 and an image formed on the CCD 19 is displayed in color in the endoscope observation image display area 5a.
[0018]
In the insertion portion 6, the bending portion 12 provided adjacent to the distal end portion 11 is configured such that a large number of ring-shaped bending pieces 26 are mutually connected by rivets or the like at positions corresponding to the adjacent bending pieces 26 in the vertical and horizontal directions. It is configured to be rotatably connected. The distal end of the bending wire 27 is fixed to the most advanced bending piece 26 or the distal end portion 11, and the rear end of the bending wire 27 is connected to the sprocket 28 in the operation portion 7. A bending operation knob 29 for performing a bending operation is attached to the shaft of the sprocket 28. For the sake of simplification, FIG. 1 shows a schematic configuration of a bending mechanism only in the vertical and horizontal directions.
[0019]
Then, by rotating the bending operation knob 29, one of the pair of bending wires 27 arranged along the vertical direction or the left-right direction is pulled, and when the other is relaxed, the pulled bending wire 27 is moved to the side. The bending portion 12 can be bent.
[0020]
A grip portion 31 is formed on the operation portion 7 so as to be located in front of the position where the bending operation knob 29 is provided. Then, the surgeon grips the grip portion 31 and operates the bending operation knob 29 and the like with a finger such as a thumb not used for gripping with the gripped one hand.
[0021]
A treatment instrument insertion port 32 is provided at a front end side portion from the grip portion 31, and a distal end portion is inserted through a treatment tool channel 33 (see FIG. 3) by inserting the treatment tool from the treatment tool insertion port 32. The tip of the treatment tool protrudes from the 11 channel outlets, and treatment such as polyp excision can be performed.
[0022]
In the present embodiment, for example, a cylindrical hardness adjustment knob 34 for performing a hardness adjustment operation is provided at the front end portion of the operation portion 7 adjacent to the bend preventing member 10, and the hardness adjustment knob 34 is rotated around the axis. A hardness changing wire (hereinafter simply abbreviated as “wire”) 35 and a hardness changing coil (hereinafter simply abbreviated as “coil”) constituting the hardness varying means disposed in the flexible portion 13 of the insertion portion 6 by performing a moving operation. ) 36 constitutes a hardness adjusting mechanism capable of changing the hardness of the flexible portion 13.
[0023]
FIG. 2 shows a more specific structure of the insertion portion 6 and the operation portion 7 of the endoscope 2. The flexible tube 37 that forms the outer skin of the flexible portion 13 is provided with the coil 36 and a wire 35 that is inserted into the coil 36 and transmits a force when the hardness adjusting knob 34 is operated. . The coil 36 is formed by a coil in a state of close winding or close winding. The tip of the coil 36 is firmly fixed to the wire 35 inserted into the coil 36 by brazing or the like. In addition, the tip of the wire extension portion 30 that extends from the tip of the coil 36 and forms the coil rotation restricting member is brazed to a rigid and ring-shaped connecting tube 38 that connects the bending portion 12 and the flexible portion 13. It is firmly fixed with.
[0024]
The connecting pipe 38 that connects the bending portion 12 and the flexible portion 13 is fixed to the bending piece 26 at the rearmost end. The bending piece 26 at the rearmost end is configured to be a dual-purpose type that also functions as the connecting pipe 38. May be. The bending piece 26 including the connection pipe 38 is covered with an elastic skin 39 such as a rubber tube.
[0025]
As described above, in the present embodiment, the coil 36 is fixed to the connecting pipe 38 by fixing the tip end portion of the coil 36 to the connecting tube 38 through the wire extending portion 30 having a torsional rigidity that is stronger (larger) than the torsional rigidity in the natural state. It has a function of stopping or restricting the rotation of the rotation. The wire extension part 30 has flexible elasticity with respect to bending, and has moderate elasticity with respect to twisting.
[0026]
The proximal end portion of the coil 36 abuts against the coil stopper 40 disposed inside the front end of the operation portion 7 and is fixed to the coil stopper 40 with wax, solder, adhesive, or the like. Movement and rotation are restricted (blocked). Further, the wire 35 inserted into the coil 36 passes through the hole of the coil stopper 40 and extends rearward. The wire 35 is movable in the axial direction with respect to the coil 36. It should be noted that the coil 36 is not in a state of being largely rotated.
[0027]
The coil stopper 40 is screwed and fixed to a rear end cap 41 as a connecting pipe provided for connecting and fixing the rear end of the soft portion 13 to the operation portion 7 by screws 42. The rear end cap 41 is fixed using a nut 44 in the vicinity of the front end of the cylindrical tube 43 disposed on the outer periphery thereof.
[0028]
On the other hand, a ring-shaped wire stopper 45 is firmly fixed to the end of the wire 35 on the hand side, that is, the rear end by brazing or the like. A pulling member 46 that can move in the front-rear direction is disposed between the coil stopper 40 and the wire stopper 45, and the pulling member 46 is fixed to a C-shaped moving ring 47.
[0029]
As shown in FIG. 3B, the pulling member 46 has a groove (hole) 48 that penetrates forward and backward, and the wire 35 passes through the groove 48. That is, as shown in FIG. 3B, the groove 48 is formed long in the radial direction. The pulling member 46 is fixedly attached to the inner peripheral wall of a circular moving ring 47 with screws 49.
[0030]
The moving ring 47 is fitted on the inner surface of the cylindrical tube 43, and is attached so as to be slidable on the inner surface and movable in the axial direction (front-rear direction). When the pulling member 46 moves rearward together with the moving ring 47, the pulling member 46 shown in FIG. 2 hits the wire stopper 45, and the wire 35 together with the wire stopper 45 is operated by moving the pulling member 46 further rearward. Can also be moved backward.
[0031]
In a state where the wire stopper 45 is not moved rearward, the coil 36 whose movement toward the rear side is restricted by the coil stopper 40 is in the most flexible state, that is, in the soft state having the lowest bending hardness. On the other hand, when the coil stopper 40 is moved rearward and the wire 35 is also moved rearward at the same time, the rear end of the coil 36 hits the coil stopper 40, and the compression force that relatively presses the coil 36 forward. Works. That is, a compressive force is applied to the coil 36 by applying a force that moves the rear end of the wire 35 to the rear side, and this compressive force reduces the flexibility of the coil 36 having elasticity, that is, a hardness that is difficult to bend ( More precisely, it can be set to a hard state with a high hardness against bending. In this case, the magnitude of the compressive force applied to the coil 36 is changed in accordance with the rearward movement amount of the wire stopper 45, and accordingly, the flexibility magnitude (hardness magnitude) of the coil 36 is appropriately changed. be able to.
[0032]
On the other hand, a cam cylinder 51 shown in FIGS. 2 and 6 is fitted on the outside of the cylindrical tube 43. This cam cylinder 51 is provided with cam grooves 52a and 52b in a spiral manner in two opposite positions of the cylindrical portion. The cam cylinder 51 is a two-row cam, and the cam groove 52a and the cam groove 52b have the same shape, and are symmetrical so that the other overlaps a position rotated by 180 degrees with respect to the axis of the cam cylinder 51. Each is provided in a position. The cam grooves 52a and 52b have a smooth spiral shape.
[0033]
The cylindrical tube 43 is provided with a long hole 53 along its longitudinal direction. The moving ring 47 is provided with two pins 54 that move together with the moving ring 47. Each pin 54 is disposed so as to penetrate through the corresponding cam groove 52a, 52b and the long hole 53 located inside thereof, and is fixed to the innermost moving ring 47 with a screw portion 54a. The long hole 53 is set to a length that covers the rear end of the wire 35 or the movement range of the wire stopper 45.
[0034]
Further, as shown in FIG. 3C, a cylindrical hardness adjustment knob 34 is assembled on the outer periphery of the cam cylinder 51. A plurality of keys 71 projecting outward are provided on the outer periphery of the rear end of the cam cylinder 51, and key grooves that engage with corresponding ones of the keys 71 on the inner periphery of the rear end of the hardness adjusting knob 34, respectively. 72 is formed. Therefore, when the hardness adjustment knob 34 rotates about the axis, the cam cylinder 51 also rotates through the key 71 and the key groove 72.
[0035]
There is no key groove on the contact surface of the hardness adjusting knob 34 with a regulating member 74 described later, and the cross-sectional shape of the portion is formed to be a smooth circle. The outer diameter of the hardness adjustment knob 34 gradually increases from the front end side to a position on the hand side, and the rear end side is thicker than the front end side, and is formed in an outer peripheral shape that is easy to grip.
[0036]
Further, the outer shape of the hardness adjustment knob 34 is not limited to that of the above-described embodiment, and may be configured in another shape that is easy to grip. For example, as shown in FIG. 7A, the outer diameter of the constant width portion 116 on the rear end side of the hardness adjusting knob 34 is set to a large diameter having the same size, and the outer diameter of the remaining portion 117 is set to the same size. The thin diameter.
[0037]
In addition, as shown in FIGS. 7B and 7C, a protruding portion (convex portion) 118 or a groove (recessed portion) 119 provided in parallel to the longitudinal axis direction may be provided.
[0038]
Further, as shown in FIG. 7D, a convex portion or a concave portion may be provided on a part of the outer periphery of the hardness adjustment knob 34.
Further, as shown in FIG. 7E, knurled eyes 120 are cut around the entire circumference, or a resin 121 having a high friction coefficient such as rubber is fitted on the outer circumference as shown in FIG. You may make it.
Further, as shown in FIG. 7G, the outer diameter of only the end edge portion may be increased to form the flange 122. In this case, as shown in FIG. 7 (H), it becomes the abutting portion of the hand gripped by the heel 122.
[0039]
The hardness adjustment knob 34 in the above-described embodiment has a symmetric shape with respect to the central axis, but may have an asymmetric shape. For example, you may make it the shape according to the shape of the hand to hold.
[0040]
On the other hand, as shown in FIG. 2, the front end of the hardness adjusting knob 34 abuts against an annular cover member 73, and movement to the front is restricted. The cover member 73 is made of an elastic member, for example, rubber. The cover member 73 is disposed so as to fit on the outer periphery of the support member 58 of the anti-bending member 10, and is interposed between the rubber member 110 of the anti-bending member 10 and the hardness adjustment knob 34. The outer peripheral region of the support member 58 that is positioned is covered. Accordingly, the female screw hole 111 formed in the support member 58 is covered with the cover member 73 so as not to be exposed to the outside.
[0041]
The rubber member 110 of the anti-bending member 10 is formed in a cylindrical shape, and the outer periphery thereof is formed in a tapered conical shape with a thin tip side. The rubber member 110 is in pressure contact with and in close contact with the outer peripheral surface of the rear end portion of the soft portion 13 of the insertion portion 6.
[0042]
The rear end portion of the rubber member 110 is fitted to the front end portion of the support member 58. Further, a plurality of flanges 109 projecting outward are provided on the outer periphery of the front end portion of the support member 58 to which the rear end side portion of the rubber member 110 is fitted, and the rubber member 110 is supported by the flange 109 by the flange 109. Hard to peel from 58. Further, on the inner side of the rubber member 110, a portion surrounded by the rubber member 110, the soft portion 13, the rear end cap 41, and the support member 58 on the rear end side with respect to the portion pressed against the outer periphery of the soft portion 13 An internal space 114 is formed.
[0043]
As shown in FIG. 2, a cylindrical contact member 57 is disposed on the outer periphery near the front end of the cylindrical tube 43, and the contact member 57 is interposed between the support member 58 and the cam cylinder 51. It is sandwiched and assembled. The contact member 57 is made of a resin having good slipperiness, such as polyacetal.
[0044]
A cylindrical regulating member 74 is provided on the outer periphery of the cylindrical tube 43 so as to be positioned on the rear end side of the cam cylinder 51. An O-ring 76 is press-fitted and attached to a groove 75 formed between the steps formed on the outer periphery of the rear end of the regulating member 74 and the inner periphery of the front end of the gripping cylinder 61. The water tightness between the regulating member 74 and the gripping part cylinder 61 is ensured by the O-ring 76.
[0045]
A groove 77 is also formed around the outer periphery of the intermediate portion of the regulating member 74, and an O-ring 78 is closely attached to the groove 77. The O-ring 78 is in pressure contact with the inner peripheral surface of the hardness adjusting knob 34 fitted on the outer periphery of the restricting member 74, ensuring water-tightness at this portion and rotating the hardness adjusting knob 34. A certain amount of frictional force is applied to the adjustment knob 34.
[0046]
The outer peripheral surface at the front end of the gripping portion cylinder 61 of the operation unit 7 is closely fitted in a slidable manner on an inner peripheral surface 64 formed by cutting out the rear end portion of the hardness adjusting knob 34. Further, the front end of the gripping portion cylinder 61 is close to a state in which it substantially abuts against the rear end of the regulating member 74.
[0047]
The hardness adjustment knob 34 is fitted between the cover member 73 and the gripping portion cylinder 61 on the outer periphery of the cam cylinder 51 or the regulating member 74 and is attached in a state where movement in the front-rear direction is regulated. ing. Further, the hardness adjusting knob 34 is rotatably arranged around the cylindrical tube 43 via the cam cylinder 51.
[0048]
Thus, the hardness adjustment knob 34 can be rotated around its axis, but the restricting member 74 is fixed to the cylindrical tube 43 with screws 79 so as not to rotate. Further, an O-ring 62 is disposed between the inner peripheral surface of the front end portion of the hardness adjustment knob 34 and the outer peripheral surface of the support member 58 facing the inside thereof, ensuring water-tightness at that portion, and the hardness adjustment knob 34. Since the O-ring 62 is in pressure contact with the inner peripheral surface, when the hardness adjustment knob 34 is rotated, a certain degree of frictional force is applied to the hardness adjustment knob 34.
[0049]
The cylindrical tube 43 is connected at its rear end to a frame (not shown) to which the bending operation mechanism and the like of the operation unit 7 are attached by a screw (not shown). The cylindrical tube 43 is attached so as not to rotate even if the hardness adjustment knob 34 side is rotated.
[0050]
As shown in FIG. 2, a flange portion 101 protruding inward is integrally provided on the inner peripheral surface of the tip of the cylindrical tube 43. A flange portion 102 that projects outward is integrally provided on the outer periphery of the rear end of the rear end base 41. The end wall surfaces of the flange portion 101 and the flange portion 102 are in contact with each other from the axial direction. Further, on the outer peripheral surface of the rear end base 41, a male screw 103 is formed on the outer peripheral surface located slightly on the front end side with respect to the flange portion 102, and a female screw is cut on the inner peripheral surface of the male screw 103. A nut 44, which is a ring-shaped member, is screwed together, the nut 44 is abutted against the flange portion 101, and the flange portion 101 is fastened and fixed between the flange portion 102 of the rear end cap 41. That is, the rear end cap 41 is fixedly attached to the cylindrical tube 43 without looseness by sandwiching the flange portion 101 between the flange portion 102 and the nut 44 from both sides in the axial direction.
[0051]
On the outer peripheral surface of the rear end base 41, a groove 80 is formed in the outer peripheral surface portion located on the tip side of the male screw 103, and an O-ring 104 is provided in the groove 80. The O-ring 104 is in pressure contact with the inner peripheral surface of the support member 58 and maintains water tightness at this portion.
[0052]
Further, as shown in FIGS. 2 and 4, a groove 105 is formed on the outer surface of the rear end base 41 located on the front end side of the position where the O-ring 104 is provided. A plurality of female screw holes 111 are formed in the support member 58 so as to face the groove 105 and are arranged radially. A screw 106 is screwed into the female screw hole 111 of the support member 58, and a tip portion of the screw 106 is fitted in the groove 105. That is, the support member 58 is assembled to the rear end cap 41 by the screw 106. An engagement portion that restricts movement in the longitudinal direction with respect to the rear end portion of the flexible portion 13 by engagement of the groove 105 and the screw 106 and hardly restricts movement in the rotation direction is configured. Yes.
[0053]
Further, as shown in FIG. 2, a circumferential groove 105 facing the female screw hole 111 and an internal space 114 formed inside the rubber member 110 of the folding member 10 are formed on the outer peripheral surface of the rear end cap 41. A plurality of grooves 113 that communicate with each other are provided.
[0054]
As described above, the support member 58 is assembled to the rear end cap 41 by tightening the screw 106 in the groove 105 of the rear end cap 41. Thus, only the engaging means by the groove 105 and the screw 106 is used as the center. The movement in the axial direction can be restricted, but the rotation around the central axis cannot be sufficiently restricted. Therefore, the following engagement means is provided. That is, as shown in FIG. 5 in which the rear end side portion of the support member 58 is viewed from the side surface, the rear end side end portion of the support member 58 is provided with a notch portion 107 opened at the rear end, and the cylindrical tube 43 A pin 108 is attached to the outer peripheral surface portion of this, and the pin 108 is fitted into the notch portion 107 so as to be engaged therewith. Thereby, the movement part of the rotation direction of the bending prevention member 10 with respect to the operation part 7 is controlled, and the engaging part which does not control the movement to a longitudinal direction is comprised.
[0055]
As described above, in this embodiment, when connecting the cylindrical tube 43 and the bend preventing member 10, the movement in the rotational direction is restricted by the locking means by the pin 108, and the movement restriction in the central axis direction is by the screw 106. This is done by stopping means.
[0056]
Various built-in objects are arranged in the insertion portion 6 of the endoscope 2 as shown in FIG. That is, four bending wires 27 arranged at positions corresponding to the top, bottom, left and right, two signal cables 21 arranged near the center, two light guides 14 arranged near the upper center, and a lower side Built-in treatment instrument channel 33 disposed on the left side, coil 36 and wire 35 disposed on the left side, air supply tube 69 for supplying air disposed adjacent thereto, water supply tube 70 for supplying water, etc. Has been. Also, various built-in objects are arranged in the operation unit 7 as shown in FIG.
[0057]
(Operation and effects in use)
In the endoscope 2, when the hardness adjustment knob 34 is rotated, the cam cylinder 51 also rotates, so that the pin 54 moves in the cam grooves 52a and 52b, and the traction member 46 moves rearward. When the pulling member 46 moves a little in this way, it hits the wire stopper 45, and the pulling member 46 further moves backward, pulling the wire 35, applying a compressive force to the coil 36, and hardening the coil 36. . Thereby, the soft part 13 can be hardened.
[0058]
(Operation / effect of gripping operation of hardness adjustment knob)
In the embodiment shown in FIGS. 2 and 7A, the rear end side of the outer periphery is formed thicker than the front end side. For this reason, the hardness adjustment knob 34 is easy to grip. Since the portion where the outer diameter is increased is located on the rear end side of the hardness adjustment knob 34 and is away from the folding member 10, it is less likely that the folding member 10 is erroneously gripped.
[0059]
7 (B), (C), (E), and (F) are provided with irregularities on the outer periphery of the hardness adjustment knob 34, the case where the hardness adjustment knob 34 is gripped and broken. There is a clear difference in the tactile sensation when the stop member 10 is gripped. Therefore, erroneous operation can be avoided.
[0060]
In the embodiment shown in FIG. 7G, the hardness adjustment knob 34 is gripped as shown in FIG. 7H. At this time, the little finger hits the side wall surface of the protruding portion of the flange 122 of the hardness adjustment knob 34. Therefore, there is a clear difference from the tactile sensation when the folding member 10 is gripped, and an erroneous operation can be avoided. The protruding portion of the ridge 122 provides a finger contact function for preventing slipping. Furthermore, since the hand holding the hardness adjustment knob 34 is easily slid downward due to the weight of the arm, it is necessary to always hold the grip with a certain gripping force, which leads to inspection fatigue. 7 (H), the protrusion supports the hand as shown in FIG. 7 (H), so that even if it is lightly grasped, the hand does not slide downward, leading to a reduction in inspection fatigue. .
[0061]
In the structure of FIG. 7D, there is an effect that the position of the hardness adjustment knob 34 can be confirmed by tactile sensation by the position of the protrusion or groove without confirming with eyes.
[0062]
【The invention's effect】
As described above, according to the first aspect of the present invention, since the operation knob is easier to grip than the folding member, it is less likely that the folding member is accidentally gripped and rotated. There is little risk of damage to the parts.
According to the second aspect of the invention, in addition to the effect of the first aspect of the invention, the portion with the large outer diameter of the operation knob supports the hand that holds the operation knob. Without slipping, leading to a reduction in inspection fatigue.
[Brief description of the drawings]
FIG. 1 is a configuration diagram showing an outline of an endoscope apparatus according to a first embodiment.
FIG. 2 is a longitudinal sectional view showing a configuration of a portion extending from a flexible portion and an operation portion of an insertion portion in the endoscope according to the first embodiment.
3A is a cross-sectional view taken along line AA in FIG. 2, FIG. 3B is a cross-sectional view taken along line BB in FIG. 2, and FIG. 3C is taken along line CC in FIG. Sectional view of the part along the line.
4 is a cross-sectional view of a portion along the line DD in FIG. 2;
FIG. 5 is an explanatory diagram illustrating a connection state between a support member of a folding preventing member and a cylindrical tube in the endoscope.
FIG. 6 is a detailed explanatory view of a cam cylinder in the endoscope.
7A to 7H are explanatory views showing other examples of the hardness adjustment knob.
FIG. 8 is a longitudinal sectional view of a connecting portion between a flexible portion and a manipulation portion of a general endoscope.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Endoscope apparatus, 2 ... Endoscope, 6 ... Insertion part, 7 ... Operation part,
DESCRIPTION OF SYMBOLS 10 ... Anti-bending member, 11 ... Tip part, 12 ... Bending part, 13 ... Soft part,
37 ... flexible tube, 34 ... hardness adjustment knob, 41 ... rear end cap, 43 ... cylindrical tube,
58 ... support member, 109 ... flange, 110 ... rubber member,
116: a portion having a constant width, 118 ... a projecting portion (convex portion), 119 ... a groove (concave portion),
120 ... Knurled eyes, 121 ... Resin having a high coefficient of friction.

Claims (2)

An elongated flexible part that can be inserted into a body cavity;
A cylindrical support member provided at a rear end of the soft part and supporting the soft part;
An inner surface that contacts the outer surface of the soft part and is formed of a flexible resin, and is fitted to the support member;
An operation knob that is provided on the support member and has an outer peripheral surface that has a rear end side with a large diameter with respect to the front end side, and is operated to be rotated in a circumferential direction around the support member;
An endoscope comprising: An elongated flexible part that can be inserted into a body cavity;
A cylindrical support member provided at a rear end of the soft part and supporting the soft part;
An inner surface that contacts the outer surface of the soft part and is formed of a flexible resin, and is fitted to the support member;
An operation that is provided on the support member and has an outer peripheral surface that is formed with a large diameter at the front end side with respect to the rear end side, and that is rotated in the circumferential direction around the support member. Knob,
An endoscope comprising:

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