WO2005110193A1 - 挿入装置、及び内視鏡システム - Google Patents
挿入装置、及び内視鏡システム Download PDFInfo
- Publication number
- WO2005110193A1 WO2005110193A1 PCT/JP2005/008914 JP2005008914W WO2005110193A1 WO 2005110193 A1 WO2005110193 A1 WO 2005110193A1 JP 2005008914 W JP2005008914 W JP 2005008914W WO 2005110193 A1 WO2005110193 A1 WO 2005110193A1
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- WIPO (PCT)
- Prior art keywords
- guide tube
- rotation
- cartridge
- endoscope
- rotating
- Prior art date
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Classifications
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B1/00—Instruments for performing medical examinations of the interior of cavities or tubes of the body by visual or photographical inspection, e.g. endoscopes; Illuminating arrangements therefor
- A61B1/31—Instruments for performing medical examinations of the interior of cavities or tubes of the body by visual or photographical inspection, e.g. endoscopes; Illuminating arrangements therefor for the rectum, e.g. proctoscopes, sigmoidoscopes, colonoscopes
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B1/00—Instruments for performing medical examinations of the interior of cavities or tubes of the body by visual or photographical inspection, e.g. endoscopes; Illuminating arrangements therefor
- A61B1/04—Instruments for performing medical examinations of the interior of cavities or tubes of the body by visual or photographical inspection, e.g. endoscopes; Illuminating arrangements therefor combined with photographic or television appliances
Definitions
- the present invention relates to an insertion device used when introducing an insertion portion of an endoscope into a body cavity, and to an endoscope system including the insertion device.
- endoscopes having an elongated and flexible insertion section have been used in the medical field for inspection, treatment and the like.
- the treatment tool provided in the insertion portion can be used as needed.
- Various treatments and treatments can be performed by introducing the treatment tool into the body cavity through the communication channel.
- a bending portion is provided on the distal end side of the insertion portion. The bending portion bends, for example, in a vertical direction or a horizontal direction by moving an operation wire connected to a bending piece constituting the bending portion. The operation wire is moved forward and backward by rotating, for example, a bending knob provided on the operation unit.
- the insertion portion When performing an endoscopy, the insertion portion must be inserted into a complicated and complicated body cavity.
- a complicated intricate lumen such as the large intestine, which draws a 360 ° loop, the surgeon operates the bending knob to bend the bending part.
- the operator performs a hand operation such as twisting the insertion portion to introduce the distal end portion of the insertion portion toward the target site for observation.
- Japanese Patent Application Laid-Open No. Hei 10-113396 discloses that the invasion to the deep part of a biological vessel is easily and minimally invasive.
- a medical device propulsion device that can guide a medical device with a medical device is shown.
- the rotating member is provided with a rib oblique to the axial direction of the rotating member. For this reason, by rotating the rotating member, the rotating force of the rotating member is converted to propulsion by the rib, and the medical device connected to the propulsion device is moved in the deep direction by the propulsion. .
- the distal end portion of the rotating member may be caught by a fold or a small dent of the intestine, which may hinder a smooth advance.
- the present invention has been made in view of the above-mentioned points, and has an insertion device that guides an insertion portion for guiding an endoscope insertion portion to a desired portion always smoothly in a body cavity. And to provide an endoscope system.
- the insertion device of the present invention includes a long insertion portion to be inserted into a subject, a propulsion force generation portion provided on an outer peripheral surface of the insertion portion, and the insertion device provided with the propulsion force generation portion. It has a rotating section of the guide tube rotating device for rotating the section around the longitudinal axis, and a rotation control section for controlling the rotating section.
- FIG. 1 is a diagram illustrating a schematic configuration of an endoscope system according to a first embodiment of the present invention.
- FIG. 2 Diagram for explaining the configuration of the insertion unit
- FIG. 3 is a view for explaining the insertion state of the insertion portion into the large intestine
- FIG. 5 Insert the insertion portion into the treatment tool insertion channel provided in the insertion portion of the endoscope. Diagram explaining the procedure
- FIG. 6 illustrates a state in which the insertion portion of the endoscope is inserted into the large intestine by guiding the insertion portion.
- FIG. 7 is a view for explaining a schematic configuration of an insertion device constituting an endoscope system according to a second embodiment of the present invention.
- FIG. 8 is an external perspective view of a guide tube storage cartridge constituting the insertion device.
- FIG. 10 is a diagram illustrating a schematic configuration of an endoscope system according to a third embodiment of the present invention.
- FIG. 11 is a modified example of the third embodiment, which is located on the proximal end side of the endoscope capsule. Diagram to explain the configuration of the arranged planpipe
- FIG. 12 is a view illustrating another configuration example of the guide tube storage cartridge constituting the insertion device.
- FIG. 13 is a view illustrating another configuration example of the cartridge, and is a cross-sectional view taken along line ⁇ - ⁇ of FIG.
- FIG. 15 is a view for explaining still another configuration example of the guide tube storage cartridge.
- FIG. 16 is a side view illustrating still another configuration of the guide tube storage cartridge.
- FIG. 19 is an external perspective view illustrating the configuration of a cartridge.
- FIG. 20 A cross-sectional view along line XX—XX of FIG. 19, including an enlarged view of the holding member.
- FIG. 21 is a top view showing the cartridge main body in which the guide tube is housed.
- FIG. 22 is a diagram illustrating a schematic configuration of an endoscope system according to a fourth embodiment of the present invention.
- FIG. 23 is an enlarged view for explaining the configuration of the operation unit of the endoscope in the endoscope system
- FIG. 24 is a view for explaining a schematic configuration of a mechanism of a guide tube rotating device in an insertion device constituting an endoscope system according to a fourth embodiment
- FIG. 25 is a time chart showing an example of a control pattern of a rotation speed and a rotation direction of a guide tube.
- an endoscope system 1 of the present embodiment mainly includes an endoscope 2 which is a medical device and has an observation unit, and an insertion device 3.
- the endoscope 2 includes an endoscope insertion portion (hereinafter, referred to as an insertion portion) 11, an operation portion 12 provided on a base end side of the insertion portion 11, and a side portion of the operation portion 12. It has a universal cord 13 that extends.
- the insertion portion 11 is configured by sequentially connecting a distal end rigid portion 14 in order from the distal end side, a bending portion 15 configured to be able to bend vertically and horizontally, and a flexible tube portion 16 having flexibility.
- the operation unit 12 of the endoscope 2 is provided with a treatment instrument insertion port 17.
- the treatment instrument insertion port 17 communicates with a treatment instrument passage channel (see reference numeral 1 la in FIG. 5) provided in the insertion section 11 for penetrating a treatment instrument (not particularly shown).
- the endoscope 2 includes a light source device 4, a video processor 5, and a monitor 6 as external devices.
- the light source device 4 supplies illumination light to the endoscope 2.
- the video processor 5 has a signal processing circuit.
- the video processor 5 supplies a drive signal for driving an image pickup device (not shown in particular) provided in the endoscope 2, and the electric signal which is photoelectrically converted and transmitted by the image pickup device.
- the signal is converted into a video signal, and the generated video signal is output to the monitor 6.
- the endoscope image is displayed on the screen of the monitor 6 in response to the video signal output from the video processor 5.
- the insertion device 3 is mainly composed of a guide tube 21, which is an insertion portion to be inserted into a subject and guides the insertion portion 11, and a guide tube rotating device 22.
- the guide tube rotating device 22 includes a motor 23 as a rotating unit and a guide tube fixing unit 24.
- the motor 23 rotates the guide tube 21 in a predetermined direction around a longitudinal axis of the guide tube (hereinafter, referred to as around the axis).
- the motor 23 is installed on a platform 25 a of a rotating device cart (hereinafter abbreviated as a cart) 25.
- the cart 25 is located, for example, near the bed 8 on which the patient 100 lies.
- the motor 23 is fixed to a predetermined fixing member (not shown) on the table 25a.
- the motor shaft 23a of the motor 23 is set so as to be parallel to the upper plane of the base 25a of the cart 25.
- a guide tube fixing portion 24 is physically fixed to a motor shaft 23a of the motor 23.
- a proximal end which is one end of the guide tube 21, is detachably attached to the guide tube fixing portion 24. It has become so. Therefore, in a state where the guide tube 21 is attached, the motor shaft 23a is rotated by driving the motor 23 in the driving state. Accordingly, the guide tube 21 attached to the guide tube fixing portion 24 integrally fixed to the motor shaft 23a also rotates around the shaft.
- the guide tube 21 is covered with a protective tube 26 that also serves as a tubular member.
- the protection tube 26 prevents the guide tube 21 from directly touching the floor or the like in the operating room.
- An inner hole is provided in the protection tube 26, and the guide tube 21 is inserted into the inner hole in a loosely fitted state.
- Both ends 26a and 26b of the protection tube 26 are detachably attached and fixed to the protection tube holding members 27 and 28, respectively.
- one protection tube holding member 27 is arranged on the bed 8 via a stand 29 whose height can be adjusted, for example.
- the other protection tube holding member 28 is disposed on a table 25b provided on the cart 25 at a position facing the motor 23.
- a concave member or the like having an opening on one surface in the longitudinal direction and having flexibility as a whole, such as a rain gutter shape, may be arranged.
- the guide tube rotating device 22 includes a control circuit for controlling the driving of the motor 23, a plurality of operating members, and the like, and thereby a rotation control box 7 serving as a rotation control unit for controlling the rotation of the guide tube 21. Is connected!
- a control circuit (not shown) for controlling the driving of the motor 23 is provided inside the rotation control box 7 as described above.
- Various operation members for controlling the drive of the motor 23 are provided on the outer panel of the rotation control box 7.
- the operation members include, for example, a rotation on / off operation member 7a for performing an on / off operation of the rotation drive control of the motor 23, a rotation forward / reverse switching operation member 7b for performing a rotation direction switching operation of the motor 23, and a motor.
- Speed control operating member 7c for adjusting the rotation speed of 23
- the rotation on / off operation member 7a is used to arbitrarily turn on / off the rotation state of the motor 23 (guide tube 21) according to the insertion state of the guide tube 21 and the state of the patient 100.
- it is an operation member used when performing off control.
- the rotation on / off operation member 7a performs control such as temporarily stopping the rotation of the motor 23 (the guide tube 21) or starting the rotation again.
- the rotation forward / reverse switching operation member 7b is an operation member used when performing the forward / reverse rotation control in the rotation direction when the present endoscope system 1 is used.
- the rotation forward / reverse switching operation member 7b performs an operation of rotating the motor 23 in the reverse direction to reverse the guide tube 21 when removing the inserted guide tube 21. Further, for example, when a stack or the like occurs during the insertion operation of the guide tube 21, the motor 23 is temporarily set to the reverse rotation state to reverse the plan tube 21 in order to eliminate the stack state. Then, when inserting again, the reverse rotation state is switched to the normal rotation state.
- the speed adjustment operation member 7c is an operation member used for controlling the rotation speed of the motor 23 when the present endoscope system 1 is used.
- the rotation speed of the motor 23, that is, the rotation speed of the guide tube 21, is arbitrarily adjusted according to the state of the body cavity, such as the examination time and the intestine to be examined by the patient 100.
- the operating member 7a is a rotary operating member
- the operating member 7b is a push button operating member
- the member 7c is a sliding operation member.
- the form of the operating member is not limited to these, and various operating members in a widely and generally used form can be appropriately adopted.
- the guide tube 21 is a helical tube in consideration of penetrability into a body cavity.
- the guide tube 21 is made of, for example, a stainless steel wire 31 having a predetermined diameter and spirally wound in two layers to have a predetermined flexibility.
- the outer surface of the guide tube 21 is provided with a helical portion 21a which is a propulsive force generating portion formed by the surface of the metal strand 31. Note that the outer diameter of the guide tube 21 is set to a size that can be inserted into the treatment instrument insertion channel of the endoscope 2.
- the guide tube 21 may be formed by winding multiple guides such as four. Further, when the metal wires 31 are spirally wound, various characteristics of the guide tube 21 can be set by changing the degree of adhesion between the metal wires or changing the angle of the spiral.
- a medical The person in charge (abbreviated as a staff member) prepares the protection tube 26 and the guide tube 21 having a desired insertion property.
- the staff fixes each end of the protection tube 26 to the protection tube holding members 27 and 28.
- the staff inserts the guide tube 21 into the inner hole of the protection tube 26.
- the base end of the guide tube 21 protruding from the protection tube 26 is attached to the guide tube fixing portion 24 fixed to the motor shaft 23a of the motor 23.
- the distal end of the guide tube 21 is arranged on, for example, a bed or a stand 29.
- the preparation for inserting the guide tube 21 into the large intestine is completed.
- the endoscope 2, the light source device 4, the video processor 5, and the monitor 6 are also prepared.
- the operator grasps the distal end of the guide tube 21 and moves the distal end of the guide tube 21 from the anus of the patient 100 lying on the bed 8. Part is inserted into the large intestine. Then, the helical portion 21a provided on the outer surface of the guide tube 21 comes into contact with the intestinal wall. At this time, the state of contact between the spiral-shaped portion 21a formed in the guide tube 21 and the fold of the intestinal wall has a relationship between the male screw and the female screw.
- the motor 23 of the guide tube rotating device 22 is set in a rotationally driven state.
- the guide tube fixing part 24 rotates. Then, the base end of the guide tube 21 attached to the guide tube fixing portion 24 makes a predetermined rotation, and this rotation is transmitted from the base end to the distal end side. As a result, as shown by the arrow in FIG. 3, the guide tube 21 is rotated in the direction around the axis such that the spiral portion 21a of the guide tube 21 moves toward the base end force.
- the guide tube 21 is advanced such that the male screw moves relative to the female screw at the contact portion between the spiral shaped portion 21a of the rotated guide tube 21 and the fold of the intestinal wall, Propulsion is generated. Then, the guide tube 21 moves forward in the large intestine with a propulsive force toward the deep part. At this time, the operator may perform a hand operation such as pushing the held guide tube 21 forward.
- the guide tube 21 inserted from the anus 71 advances from the rectum 72 toward the S-shaped colon part 73 by the propulsion force and the operation performed by the operator. Then, the distal end of the guide tube 21 reaches the S-shaped colon 73 as shown in FIG. At this time, the contact length between the spiral-shaped portion 21a of the guide tube 21 and the intestinal wall is long. Therefore, only a part of the spiral-shaped part 21a is S-shaped A stable propulsion force can be obtained even in a state of being in contact with the fold of the colon 73 or a state in which the guide tube 21 is complicatedly bent. Because the guide tube 21 has sufficient flexibility, the position of the S-shaped colon 73 changes easily because the guide tube 21 has sufficient flexibility. .
- the rotating guide tube 21 passes through the S-shaped colon part 73, and thereafter, the bent part, which is the boundary between the S-shaped colon part 73 and the poorly movable descending colon part 74, , Smoothly moving along the wall of the spleen curve 76, which is the boundary between the descending colon 74 and the mobile colon 75, which is highly mobile, and the liver curve 77, which is the boundary between the transverse colon 75 and the ascending colon 78. Go. Then, as shown in FIG. 4, the distal end of the guide tube 21 that does not change the running state of the large intestine reaches, for example, the vicinity of the cecum 79, which is the target site.
- the staff If the operator determines that the guide tube 21 has reached the vicinity of the cecum 79, the staff operates the rotation on / off operation member 7a of the rotation control box 7 based on the instruction from the operator, The rotational drive state of the motor 23 of the guide tube rotating device 22 is switched to the off state.
- the staff removes the proximal end of the guide tube 21 projecting from the protection tube 26 from the guide tube fixing portion 24. Then, the guide tube 21 is removed from the protection tube 26. Then, the procedure proceeds to a procedure for inserting the insertion section 11 of the endoscope 2 into the large intestine.
- the surgeon performs an operation of rotating the rotation direction of the guide tube 21 in the reverse direction by appropriately operating the rotation normal / reverse switching operation member 7b of the rotation control box 7. Then, the guide tube 21 rotates in the reverse direction to the rotation direction at the time of forward movement, and the guide tube 21 is retracted. Thus, the pulling force at the distal end of the guide tube 21 is released. Thereafter, after the guide tube 21 is retracted to some extent, the rotation forward / reverse switching operation member 7b of the rotation control box 7 is operated again to switch the rotation direction of the guide tube 21 to the forward direction.
- the position of the distal end of the guide tube 21 is slightly displaced in the intestine, so that the forward end is resumed without the distal end being caught again. Further, when performing a delicate operation for moving the guide tube 21 forward and backward, by operating the speed adjusting operation member 7c of the rotary control box 7, the speed is lower than that during the normal forward operation. , The guide tube 21 can be rotated.
- the guide tube 21 can be left in the body cavity. While repeating forward and backward movements, the robot is finally advanced to a desired site.
- the surgeon inserts the proximal end of the guide tube 21 removed from the protective tube 26 into the distal end opening 14b provided on the distal end surface 14a of the distal rigid portion 14, as shown by the arrow in FIG. Thereafter, the guide tube 21 is inserted toward the operation section 12 through the treatment tool insertion channel 11a communicating with the distal end opening 14b. Then, the base end of the guide tube 21 is projected from the treatment instrument inlet 17 provided in the operation section 12 as shown by a dashed line in the figure.
- Reference numeral 14b is an observation window
- reference numeral 14c is an illumination window.
- the operator when the operator confirms that the guide tube 21 has protruded from the treatment instrument entrance 17 by a predetermined amount, the operator sets the endoscope 2 in an observable state in order to insert the insertion portion 11 into the large intestine. . Then, the surgeon inserts the rigid distal end portion 14 constituting the insertion portion 11 from the anus 71 with the guide tube 21 inserted into the treatment instrument insertion channel 11a. Then, an endoscope image captured by the image sensor through the observation window 14d provided on the distal end surface of the distal end rigid portion 14 is displayed on the screen of the monitor 6.
- the operator checks the extension direction of the guide tube 21 penetrating into the large intestine on the screen of the monitor 6. Then, while performing an operation of bending the bending portion 15 and an operation of twisting the insertion portion 11, the surgeon directs the distal end rigid portion 14 of the insertion portion 11 toward a deep part in the large intestine as shown in FIG. Insert it. At this time, the guide tube 21 previously inserted into the large intestine is a mark indicating the direction in which the insertion section 11 is to be inserted. Therefore, the operator can smoothly insert the distal end rigid portion 14 of the insertion portion 11 toward the vicinity of the cecum 79 without losing sight of the insertion direction.
- the endoscopic image power displayed on the screen of the monitor 6 will be examined by endoscopy in the large intestine. Migrate to The At that time, the operator pulls back the insertion section 11. At this time, the guide tube 21 is in a state of being inserted through the treatment instrument insertion channel 11a, or in a state where the guide tube 21 has been removed from the treatment instrument insertion channel 1 la in advance.
- the distal end portion of the guide tube 21 is inserted to a target portion in the large intestine. Thereafter, a portion outside the body of the guide tube 21 is inserted into the treatment instrument insertion channel 11a of the endoscope 2. Thereafter, the insertion section 11 in a state where the guide tube 21 is passed through the treatment instrument passage channel 11a is inserted into the large intestine. At this time, the insertion section 11 is inserted deeply while observing the guide tube 21 in the large intestine through the observation window 14d of the endoscope 2. Thereby, the operator can perform an appropriate bending operation and twisting operation without losing sight of the insertion direction in which the insertion section 11 is inserted. Therefore, the insertion section 11 can be inserted smoothly and in a short time to a deep part of a lumen (such as the large intestine) in the body cavity.
- a lumen such as the large intestine
- the spiral-shaped portion 21a and the folds of the intestinal wall can be obtained when the inner tube 21 is inserted into the large intestine, for example.
- the motor 23 constituting the guide tube rotating device 22 is rotationally driven to rotate the guide tube 21 in the direction around the axis.
- the guide tube 21 can be advanced toward the deep part of the large intestine while rotating, so that the rotational force is converted into the propulsive force and the male screw moves with respect to the female screw.
- the endoscope system 1 is provided with a rotation control box 7 for switching the on / off state of the rotation operation of the guide tube 21 and controlling the rotation direction, the rotation speed, and the like. Therefore, for example, when the guide tube 21 is inserted, if the distal end of the guide tube 21 is hindered from moving forward by the pulling force of the intestinal fold or small dent, the rotation control box 7 Of the operating members 7a, 7b, 7c, etc. This makes it possible to easily eliminate a factor that hinders the guide tube 21 from moving forward. Therefore, it is easy to safely and securely reach the distal end portion of the guide tube 21 to a desired portion in the body cavity.
- the lumen into which the insertion section 11 of the endoscope 2 is inserted is described as the large intestine, but the lumen into which the insertion section 11 is inserted is limited to the large intestine. Examples For example, it may be a lumen from the oral cavity to the esophagus, stomach and small intestine.
- the rotation control box 7 is arranged so as to be directly connected to the guide tube rotating device 22, but, for example, as shown by a dotted line in FIG. 7 may be placed near bed 8.
- the connection cable 7 d from the rotation control box 7 is inserted through the inside of the protection tube 26 via the protection tube holding member 27 and connected to the guide tube rotating device 22.
- a pipe through which the connection cable 7d is inserted is provided separately from the pipe through which the guide pipe 21 is inserted.
- the rotation control box 7 is arranged near the bed 8, it can be arranged near the patient 100, so that the operator can more reliably and easily control the rotation of the guide tube 21. .
- the configuration of the insertion device is slightly different.
- the guide tube 21 has a small diameter that can be used by being inserted into the treatment instrument insertion channel of the endoscope 2.
- the guide tube 21A which is the insertion portion shown in FIG. 7 of the present embodiment, after being inserted alone into the body cavity, the endoscope 2 is guided along the guide tube 21A as a guide, and Is to be inserted into Therefore, the guide tube 21A of the present embodiment has a larger diameter than the guide tube 21 of the above-described first embodiment.
- the insertion device 3A in the endoscope system of the present embodiment is different from the first device in that the guide tube rotating device 22A is disposed on the bed 8 or in the vicinity of the bed 8. It is different from the embodiment.
- the insertion device 3A mainly includes a guide tube rotating device 22A, a rotation control box 7, a guide tube storage cartridge (hereinafter simply referred to as a cartridge) 35, and the like. Is configured.
- Guide tube rotating device 22A is on or near bed 8 It is arranged beside.
- the guide tube rotating device 22A includes a motor (not shown) serving as a drive source for rotating the guide tube 21A.
- the rotation control box 7 is a rotation control unit that controls the rotation of the guide tube 21A, and is connected to the guide tube rotation device 22A.
- the guide tube 21A is housed in the cartridge 35 in a wound form.
- the rotation control box 7 includes a control circuit for performing drive control of a motor and the like of the guide tube rotating device 22A, a plurality of operation members, and the like.
- the plurality of operation members are the same as the operation members 7a, 7b, and 7c described in the first embodiment.
- the guide tube rotating device 22A and the rotation control box 7 are electrically connected by a cable 7d. Transmission and reception of control signals between the guide tube rotating device 22A and the rotation control box 7 are performed via a cable 7d.
- the cartridge 35 is entirely formed in a cylindrical shape.
- the cartridge 35 is pivotally supported by a force cartridge mounting base 35a so as to be rotatable around an axis which is a predetermined direction.
- the cartridge mounting table 35a is stably arranged on a predetermined fixing member 35b such as a floor surface.
- the cartridge 35 mainly includes a cartridge body 35c, a cover member 35d, a cover member 35e, and the like.
- Cartridge body 35c
- the cover member 35d covers the outer surface of the guide tube winding part 35g.
- the cover member 35e covers the opening of the guide tube housing 35f.
- the cartridge body 35c is formed in a hollow cylindrical shape as a whole.
- a guide tube accommodating portion 35f having an opening at one side edge and having a hollow force is formed at a central portion of the cartridge body 35c.
- a cover member 35e is detachably provided at the opening of the guide tube housing portion 35f by, for example, a screw-in type or a fitting type.
- a handle 35ee used for attaching and detaching the cover 35e is formed in the body.
- the lid member 35e is formed of a member having a soft material strength, for example, a plastic resin or rubber.
- a flange portion 35cc forming a guide tube winding portion 35g is formed at both ends in the axial direction of the cartridge body 35c.
- This flange 35cc has a smaller diameter than its maximum outer diameter part
- a small-diameter portion 35cd protrudes outward in the axial direction.
- the peripheral portion of the small-diameter portion 35cd is detachably mounted on a predetermined portion of the cartridge mounting table 35a. That is, the small-diameter portion 35cd functions as a shaft portion that rotatably supports the cartridge 35 with respect to the cartridge installation base 35a.
- a circumferential groove-shaped inner tube winding portion 35g having a concave cross section is formed at the approximate center of the body of the cartridge body 35c.
- the guide tube 21A is wound and stored in the guide tube winding portion 35g.
- a cover member 35d is provided on the cartridge body 35c.
- the cover member 35d is provided over the entire circumference so as to cover the outer surface on the outer peripheral side of the guide tube winding portion 35g.
- the cover member 35d is formed integrally with the cartridge body 35c by, for example, bonding or melting.
- a through-hole 35dd for drawing out the guide tube 21A housed therein in a wound form is formed.
- the through hole 35dd is formed to have a diameter larger than the diameter of the guide tube 21A.
- a preparation procedure for inserting the guide tube 21A into the large intestine is as follows.
- the staff when inserting the insertion portion 11 of the endoscope 2 into the large intestine, for example, the cecum, the staff first prepares for setting the insertion device 3A. That is, a cartridge 35 in which the guide tube 21A is housed in a previously wound form is prepared. Then, the cartridge 35 is placed at a predetermined position on the cartridge mounting table 35a.
- the staff also pulls out the distal end of the guide tube 21A with the through-hole 35dd force of the cartridge 35 and arranges it at a predetermined position inside the guide tube rotating device 22A.
- preparation for inserting the guide tube 21A into the large intestine is completed.
- the endoscope 2, the light source device 4, the video processor 5, and the monitor 6 are prepared.
- the operator inserts the guide tube 21A into the large intestine.
- This procedure is substantially the same as in the first embodiment. That is, the operator inserts the distal end of the guide tube 21A from the patient's anus on the bed 8 into the large intestine.
- the surgeon operates the rotation on / off operation member 7a of the rotation control box 7A to rotationally drive the motor (not shown) of the guide tube rotating device 22A.
- the guide tube 21A configured as shown in FIG. 2 starts a predetermined rotation in the direction around the axis such that the spiral-shaped portion 21a of the guide tube 21A moves toward the proximal end force.
- the guide tube 21A travels deep inside the large intestine by the propulsive force generated by the guide tube 21A.
- the guide tube 21A advances, the guide tube 21A is extended from the through hole 35dd of the cartridge 35.
- the cartridge 35 rotates on the cartridge mounting table 35a.
- the guide tube 21A finally reaches, for example, the vicinity of the cecum 79, which is the target site, as shown in FIG. At this time, it is determined that the guide tube 21A has reached the vicinity of the cecum 79 by the operator.
- the surgeon gives instructions to the staff.
- the staff operates the rotation on / off operation member 7a of the rotation control box 7A to turn off the rotation driving state of the motor of the guide tube rotating device 22A.
- the distal end portion of the guide tube 21A is pulled by a fold, a small dent, or the like of the intestine.
- smooth forward movement may be hindered.
- the measures to be taken at this time are exactly the same as in the first embodiment. That is, the operator controls the rotation direction and the rotation speed of the guide tube 21A by appropriately operating the operation members 7a, 7b and 7c of the rotation control box 7A.
- the guide tube 21A advances while repeating forward and backward movements as appropriate in the body cavity, and finally reaches a desired site.
- the guide tube 21A is placed between the anus and a desired site, for example, near the cecum.
- the insertion section 11 of the endoscope 2 is inserted into the large intestine.
- the operator first makes the endoscope 2 observable.
- the operator inserts the distal end rigid portion 14 constituting the insertion portion 11 into the large intestine from the anus 71 with the guide tube 21A indwelled in the body cavity. Then, an endoscope image is displayed on the screen of the monitor 6.
- the operator checks the extension direction of the guide tube 21A penetrating into the large intestine on the screen of the monitor 6. Then, the operator inserts the distal end rigid portion 14 of the insertion portion 11 toward the deep part of the large intestine while performing operations such as bending the bending portion 15 of the endoscope 2 and twisting the insertion portion 11. To go. At this time, the guide tube 21A previously inserted into the large intestine is inserted into the insertion section 11 It is a guide that indicates the direction in which is inserted. Therefore, the surgeon can smoothly insert the distal end rigid portion 14 of the insertion portion 11 to the vicinity of the cecum 79 without losing sight of the insertion direction.
- the surgeon confirms that the insertion section 11 has reached the vicinity of the cecum 79, which is the target site, by using an endoscopic image displayed on the screen of the monitor 6.
- the operator removes the guide tube 21A before performing the endoscopy.
- the operation shifts to the operation of pulling back the insertion section 11 in order to perform an endoscopy of the colon.
- the guide tube 21A removed from the body cavity is entirely housed in the guide tube accommodating portion 35f from the opening exposed by removing the lid member 35e of the cartridge 35. Thereafter, the opening is closed by the lid member 35e. After the inspection is completed, the cartridge 35 is discarded.
- the endoscope 2 is inserted into the body cavity along the guide tube 21A as a guide.
- the present invention can be easily applied to an insertion type. Therefore, effects similar to those of the above-described first embodiment can be obtained.
- the guide tube 21A that has been removed after being inserted into the body cavity is housed in the guide tube housing portion 35f provided inside the cartridge 35. Since the cartridge 35 can be discarded in the stored state, that is, a so-called disposable product, labor such as cleaning work can be omitted, and safer, more reliable and more efficient operation can be achieved.
- the configuration of the endoscope system 1B of the present embodiment is significantly different from the first embodiment and the second embodiment described above. That is, the endoscope system 1B of the present embodiment shown in FIG. 10 includes an endoscope capsule 2B, a guide tube 21B as an insertion portion, a guide tube rotating device 22B, a rotation control box 7B, and a cartridge 35B. , A system center 9 and a monitor 6 etc.
- the endoscope capsule 2B is configured in a small capsule shape.
- An endoscope capsule 2B is fixed to the tip of the guide tube 21B.
- the guide tube 21B corresponds to the insertion portion 11 of the endoscope 2 in the above-described first embodiment,
- the endoscope capsule 2B is guided to a desired site in the body cavity.
- the guide tube rotating device 22B includes a motor (not shown) serving as a drive source for rotating the guide tube 21B.
- the guide tube rotating device 22B is disposed on or near the bed 8.
- the rotation control box 7B is a rotation control unit that controls the rotation of the guide tube 21B.
- the cartridge 35B is a guide tube storage cartridge that stores the guide tube 21B in a wound form.
- the system center 9 performs drive control of the endoscope capsule 2B and performs various kinds of signal processing upon receiving signals from the endoscope capsule 2B.
- the monitor 6 receives the video signal generated by the system center 9 and displays an endoscope image and the like.
- the signal cables 9a and 9b transmit and receive various signals between the system center 9 and the endoscope capsule 2B.
- the signal cable 9b passes through the lumen 21Be of the guide tube 21B.
- the endoscope capsule 2B includes an illuminating device, an imaging unit formed by an electric member including an imaging device such as a CCD, and the like, and the like.
- a signal cable 9b extends from the imaging unit.
- a suction tube (not shown) is connected to a suction port (not shown) provided at the distal end portion.
- the suction tube passes through the lumen 21Be of the guide tube 21B and is connected to a connection portion 35Bab provided at the base of the cartridge installation base 35Ba of the cartridge 35B.
- the connection part 35Bab is electrically connected to the connection part 35Baa via the base of the cartridge installation base 35Ba.
- a signal cable 9a extending from the system center 9 is connected to the connection portion 35Baa.
- the system center 19 and the endoscope capsule 2B are electrically connected. Therefore, the system center 9 can transmit a predetermined drive control signal to the endoscope capsule 2B via the signal cables 9a and 9b and receive a signal from the endoscope capsule 2B. ing.
- the endoscope capsule 2B is provided at the distal end of the guide tube 21B.
- a bearing 21Bc is provided between the distal end portion of the guide tube 21B and the endoscope capsule 2B.
- the guide tube 21B is the same as the endoscope 2 in the first embodiment described above. This is a member corresponding to the insertion portion 11 and a member serving to guide the endoscope capsule 2B to a desired position in the body cavity.
- the guide tube 21B is formed in a hollow tubular shape. As described above, the signal cable 9b, the suction tube, and the like are inserted into the lumen 21Be of the guide tube 21B. Further, a helical portion 21a similar to FIG. 2 is formed on the outer periphery of the guide tube 21B.
- the guide tube 21B When the guide tube 21B is advanced, for example, by the propulsive force, transmission of the rotational force of the guide tube 21B to the endoscope capsule 2B is prevented. For this reason, the endoscope image captured by the endoscope capsule 2B is displayed on the screen of the monitor 6 in a stationary state without rotating. Further, since the guide tube 21B is provided with the lumen 21Be that is a sufficiently large space, the signal cable 9b and the like inserted through the lumen 21Be do not rotate with the rotation of the guide tube 21B.
- the basic configuration of the cartridge 35B is substantially the same as that of the guide tube storage cartridge according to the second embodiment described above. That is, the cartridge 35B is disposed at a predetermined position of the cartridge installation base 35Ba, and is rotatable in a predetermined direction (around the axis) about the shaft portion 35Bc as a rotation center.
- the cartridge mounting table 35Ba is stably mounted on a predetermined fixing member 35b such as a floor surface.
- Each device is provided with a connection connector so that the rotation control box 7B can be connected to, for example, any of the guide tube rotation device 22B, the system center 19, and the cartridge installation base 35Ba. Therefore, the user can connect and use the rotation control box 7B to any part of each device.
- the rotation control box 7B is connected to the guide tube rotating device 22B as shown by the reference symbol [A] in FIG. 10, or the rotation control box 7B as shown by the reference symbol [B] in FIG. Is connected to the system center 9, or the rotary control box 7B is connected to the cartridge mounting table 35Ba as shown by the symbol [C] in FIG.
- the guide tube 21B when inserting the endoscope capsule 2B into the body cavity, the guide tube 21B is rotated by the guide tube rotating device 22B. It is configured to obtain propulsion.
- the control of the rotation direction and the rotation speed of the motor (not shown) of the guide tube rotating device 22B can be performed by appropriately operating the operation member of the rotation control box 7B. Therefore, similarly to the first embodiment and the second embodiment described above, the distal end portion of the guide tube 21B, that is, in this embodiment, the endoscope capsule 2B can be safely moved to a desired portion in the body cavity. It can be reached reliably and smoothly.
- the rotation control box 7B is configured to be connectable to a plurality of devices, the user can appropriately change the arrangement of the rotation control box 7B according to the application. Therefore, the endoscope system 1B can be operated efficiently.
- the rotation control box 7B may be connected to all parts of [A] in FIG. 10, [B] in FIG. 10, and [C] in FIG.
- the endoscope system shown in this modification has substantially the same configuration as that of the above-described third embodiment.
- the diameter of the guide tube 21B is smaller than the diameter of the endoscope capsule 2B.
- the diameter of the guide tube 21B and the diameter of the endoscope capsule 2B are different. The diameter is formed to be substantially the same.
- the guide tube 21B since the guide tube 21B has a small diameter, the guide tube 21B is excellent in flexibility, so that a more flexible guide tube 21B can be formed.
- a region in which the rotational force of the guide tube 21BB is used as the propulsive force of the endoscope capsule 2BB can be used immediately near the front end face of the guide tube 21BB. Therefore, the region for obtaining the propulsive force when inserting the endoscope capsule 2BB into the body cavity extends to the vicinity of the endoscope capsule 2BB, and the insertion operation can be performed more easily.
- the configuration of the cartridge accommodating the guide tube is not limited to the configuration of the above-described embodiment, and various configurations such as those described below can be considered.
- the cartridge 35A of the present embodiment has substantially the same configuration as the cartridge 35 of the above-described second embodiment.
- a handle 35h for rotating the cartridge body 35Ac is provided instead of the lid 35e and the handle 35ee of the cartridge 35 in the second embodiment described above, and the guide tube housing 35f is provided. Abolished. This is different from Cartridge 35!
- the entire cartridge 35A is formed in a cylindrical shape.
- the cartridge 35A is provided so as to be rotatably supported in a predetermined direction by a cartridge installation base 35Aa.
- the cartridge mounting table 35Aa is stably mounted on a predetermined fixing member such as a floor surface.
- the cartridge 35A mainly includes a cartridge body 35Ac, a cover member 35d, a handle portion 35h, and the like.
- the cartridge body 35Ac is formed to have a guide tube winding part 35g.
- the cover member 35d covers the outer surface of the guide tube winding part 35g.
- the handle 35h is disposed at one end of the cartridge body 35Ac.
- the cartridge body 35Ac has a cylindrical body 35Aca.
- a guide tube 21A is wound around the body 35Aca.
- a flange portion 35Acc forming a guide tube winding portion 35g is provided on the body.
- the flange 35Acc is formed to have a diameter larger than the diameter of the body 35Aca.
- Flange 35cc has the maximum outer diameter
- a small-diameter portion 35Acd which is smaller in diameter than the part, protrudes outward in the axial direction.
- the peripheral edge of the small-diameter portion 35cd is mounted on a predetermined portion of the cartridge setting table 35Aa.
- the small diameter portion 35Acd functions as a shaft portion that rotatably supports the cartridge 35 with respect to the cartridge installation base 35Aa.
- a fulcrum of the handle portion 35h is fixed to a central shaft portion on one side of the small diameter portion 35Acd.
- the handle 35h is formed by an arm and a handle.
- the handle 35h is integrally fixed to one end of the cartridge body 35Ac.
- a guide tube 21A is wound and housed in a guide tube winding portion 35g provided substantially at the center of the body of the cartridge body 35c.
- the outer surface of the guide tube winding portion 35g is entirely covered by a cover member 35d.
- the cover member 35d is provided integrally with the cartridge body 35c. Specifically, the cover member 35d is formed so as to be integrated with the cartridge body 35c by, for example, bonding or melting.
- a through-hole 35dd is formed in a predetermined portion of the cover member 35d to draw out the guide tube 21A housed therein in a wound form.
- the through hole 35dd is formed with a diameter larger than the diameter of the guide tube 21A.
- the cartridge 35A thus configured, by rotating the handle 35h in a predetermined direction after the inspection, the used guide tube 21A can be rewound into the cartridge 35A again. When the entire guide tube 21A is rewound into the cartridge 35A, the cartridge 35A is discarded.
- the cartridge 35C is formed in a rectangular parallelepiped shape as a whole.
- the cartridge 35C is mainly composed of a cartridge body 35Cc and canopy materials 35Cda and 35Cdb.
- Cover member 35Cda and cover member 35Cdb cover the two sides so as to hold the cartridge body 35Cc! /
- a concave groove-shaped storage portion 3 for storing the guide tube 21A is provided on one surface side of the cartridge body 35Cc.
- 5Cg is formed on one surface side.
- a guide tube accommodating portion 35Cf for accommodating the used guide tube 21A is formed on the other surface side.
- the concave groove-shaped storage portion 35Cg is covered with the cover member 35Cda to form a predetermined space. Also, the guide tube housing 35f is formed with a cover member 35Cdb so as to form a predetermined space. The two cover members 35C da and 35Cdb are detachably provided to the cartridge body 35Cc.
- the cover member 35Cda that covers the groove-shaped storage portion 35Cg is provided with a through-hole 35Cdd for drawing out the guide tube 21A stored inside the groove-shaped storage portion 35Cg.
- the cartridge body 35Cc corresponding to the through hole 35Cdd is formed with a notch 35Ccd in the ridge.
- the cartridge 35D mainly includes a bobbin-shaped cartridge main body 35Dc, a cylindrical outer cylinder 35Dd that houses the entire cartridge main body 35Dc, and a lid member 35Dj.
- the cartridge main body 35Dc includes a body portion around which the guide tube 21A is wound, and winding portions provided at both ends of the body portion.
- the space formed between the inner wall of the side surface of the outer cylinder 35Dd and the body of the cartridge body 35Dc is the guide tube winding part 35Dg.
- a cavity is formed in the center of the inside of the body of the cartridge body 35Dc. This cavity serves as a guide tube accommodating portion 35Df for accommodating the used guide tube 21A.
- the outer cylinder 35Dd has an opening on one side, and the entire cartridge body 35Dc is accommodated in the outer cylinder 35Dd.
- the lid member 35Dj is joined to the peripheral portion of the opening of the outer cylinder 35Dd by using a joining means such as adhesion or welding.
- the guide tube 21A is wound around a guide tube winding portion 35Dg, which is a space formed between the outer cylinder 35Dd and the cartridge body 35Dc. Also, a car A through-hole (not shown) (not shown) for drawing out the guide tube 21A wound around the body of the cartridge body 35Dc is formed.
- a through hole communicating with the guide tube accommodating portion 35Df is formed substantially at the center of the cover member 35Dj.
- a cover member 35De is detachably provided in the through hole.
- the lid member 35De is detachable from the through hole by, for example, a screw-in type or a fitting type. Thereby, the through-hole can be freely opened and closed as appropriate.
- the lid member 35De is provided with a handle 35ee used for attachment and detachment on the body.
- the lid member 35De is formed of a member having a flexible material strength, for example, a plastic resin or rubber.
- the guide tube 21A is also drawn out from the drawer hole of the outer cylinder 35Dd.
- the outer cylinder 35Dd can be fixedly mounted on a cartridge installation table (not shown).
- the lid member 35De is removed, and the used guide tube 21A is stored in the guide tube housing portion 35Df. Thereafter, the lid member 35De is attached, and the cartridge 35D can be discarded as it is.
- the cartridge 35E is mainly constituted by a cartridge main body 35Ec and a cover member 35Ed.
- the cartridge body 35Ec has a substantially disc shape.
- the cover member 35Ed is provided so as to cover the cartridge body 35Ec.
- a shaft portion 35Eca protrudes substantially at the center of the cartridge body 35Ec.
- the guide tube 21A is wound around the shaft portion 35E ca.
- the guide tube 21A is wound around the shaft portion 35Eca in multiple layers.
- a hole is formed in the center of the shaft 35Eca. In this hole, the cover member 35
- a shaft member 35Ek for fixing Ed to the cartridge body 35Ec is provided. It has become. That is, by disposing the shaft member 35Ek, the cartridge main body 35Ec and the force bar member 35Ed can be integrally assembled. Then, when the cartridge body 35Ec and the cover member 35Ed are integrally assembled, the guide tube winding portion 35Eg is formed inside the cartridge body 35Ec and the cover member 35Ed.
- the cover member 35Ed has a thin cylindrical shape having an opening on one side.
- a through hole through which the shaft member 35Ek is inserted is formed substantially at the center of the surface.
- an opening 35Edd having a predetermined length and a rectangular shape is provided.
- the opening 35Edd is a drawing hole for drawing out the guide tube 21A wound and housed inside the cartridge 35E.
- the head 35Eka of the shaft member 35Ek is configured to protrude outside the cover member 35Ed in a state where the shaft member 35Ek is assembled to the cover member 35Ed and the cartridge body 35Ec.
- the cartridge body 35Ec is provided with a shaft portion 35Eca, and at a substantially central portion on a surface opposite to the waist, a small diameter having substantially the same diameter and shape as the head portion 35Eka of the shaft member 35Ek.
- the part 35Ecb is formed.
- the guide tube 21A can be easily wound back into the guide tube winding portion 35Eg of the cartridge 35E by rotating the cartridge body 35Ec. After rewinding, the cartridge 35E can be discarded in that state.
- a thin shape is realized by devising the shapes of the cartridge body 35Ec and the force bar member 35Ed.
- the guide tube 21A is wound around the shaft portion 35Eca of the cartridge body 35Ec in a multilayered manner inside the guide tube winding portion 35Eg, the guide in the guide tube winding portion 35Eg is provided.
- the position of the tube 21A and the position of the opening 35Edd can always be matched. But thus, the guide tube 21A can be always sent out in a stable state.
- the cartridge 35F is mainly constituted by a cartridge main body 35Fc and a cover member 35Fd.
- the cartridge body 35Fc constitutes a cylindrical portion in an assembled state of the cartridge 35F.
- the cover member 35Fd is composed of a conical portion having both ends opened, and a tubular portion covering an edge of the cylindrical portion.
- the cover member 35Fd is formed in a conical shape, and a through-hole 35Fdd for drawing out the guide tube 21A housed in a form wound inside is formed at the top.
- a plurality of holding members 35Fca formed of an elastic member that holds the guide tube 21A in a spirally wound state, are fixedly provided on the inner flat surface of the cartridge body 35Fc.
- the holding member 35Fca has a substantially U-shaped cross section.
- the groove portion of the holding member 35Fca is set to have a width dimension that can hold the guide tube 21A while holding the guide tube 21A. Further, when the guide tube 21A is pulled in the opening direction of the groove of the holding member 35Fca in a state where the guide tube 21A is sandwiched, the guide tube 21A can be easily removed!
- the cartridge 35F of the present modification is formed by integrally assembling the cartridge body 35Fc and the cover member 35Fd.
- the flat surface of the cartridge 35F is placed on a floor or a fixing member.
- the guide tube 21A can be sent out from the through hole 35Fdd. Therefore, the cartridge installation table can be eliminated.
- cover member 35Fd is formed in a conical shape and through hole 35Fdd is provided at the top, guide tube 21A is smoothly guided toward through hole 35Fdd when guide tube 21A is pulled out. . Therefore, the guide tube 21A can be smoothly sent out.
- the endoscope system 1C of the present embodiment mainly includes an endoscope 2E and an insertion device 3E.
- the configuration of the endoscope system 1 C of the present embodiment is substantially the same as that of the first embodiment described above. Configuration.
- the base end of the guide tube 21 is attached to the inner tube fixing portion 24, and then the distal end side of the guide tube 21 is inserted from the treatment tool entrance 17 into the treatment tool insertion channel.
- the distal end opening force is protruded by being inserted.
- Reference numeral 49 denotes a protection tube, which is disposed between the protection tube holding member 28 and the treatment instrument entrance 17.
- the endoscope system 1C of the present embodiment is different from the first embodiment in that a control unit 7E is provided instead of the rotary control box 7 in the first embodiment.
- the control unit 7E is a rotation control unit that controls the rotation of the guide tube 21 substantially in the same manner as the rotation control box 7 in the above-described first embodiment.
- An operation member for generating various instruction signals to the control unit 7E is provided in the operation section 12E of the endoscope 2E.
- the operating unit 12E of the endoscope 2E includes a plurality of operating members such as a rotation on / off operating member 7Ea, a rotation forward / reverse switching operating member 7Eb, and a speed adjusting operating member 7Ec. It is arranged at a predetermined site.
- control unit 7E and the guide tube rotating device 22 are electrically connected by a connection cable 7Ed.
- control unit 7E and the operation unit 12E are electrically connected by the universal cord 13 and the connection cable 7Ee.
- the instruction signal generated by appropriately operating the operating members 7Ea, 7Eb, and 7Ec provided on the operating unit 12E is controlled by the operating unit 12E via the universal cord 13 and the connection cable 7Ee. It is transmitted to unit 7E.
- the staff When inserting the insertion section 11 of the endoscope 2E into the large intestine, for example, the cecum, the staff prepares the protective tube 49 and the guide tube 21 having a desired insertion property. Then, the staff fixes one end of the protection tube 49 to the protection tube holding member 28. Next, the staff inserts the guide tube 21 through the protection tube 49 and the inner hole of the treatment instrument passage channel 1 la provided in the entrance 11 of the endoscope 2E. In addition, the base end of the guide tube 21 projecting from the protection tube 49 Attach to the guide tube fixing part 24. Then, the control unit 7E, the light source device 4, the video processor 5, and the monitor 6 are turned on. Thus, the preparation for inserting the insertion portion 11 of the endoscope 2E into the large intestine via the guide tube 21 is completed.
- the distal end of the treatment instrument passage channel provided in the insertion portion 11 holds the distal end side portion of the protruding guide tube 21. Then, the distal end of the guide tube 21 is inserted into the large intestine from the anus of the patient lying on the bed 8. Then, similarly to the above-described first embodiment, the guide tube 21 in the rotating state smoothly moves along the walls of the rectum 72, the sigmoid colon part 73, the descending colon part 74, the transverse colon part 75, and the ascending colon 78. Go forward. At this time, as shown in FIG. 4, the vehicle arrives at, for example, the vicinity of the cecum 79, which is the target site, without changing the running state of the large intestine.
- the operator determines that the guide tube 21 has reached the vicinity of the cecum 79, the operator operates the rotation on / off operation member 7Ea provided on the operation unit 12E of the endoscope 2E. Then, the rotational driving state of the motor 23 of the inner tube rotating device 22 is switched to the off state.
- the distal end rigid portion 14 of the insertion section 11 of the endoscope 2E is inserted into the large intestine from the anus 71.
- the operator checks the extension direction of the guide tube 21 inserted into the large intestine on the screen of the monitor 6.
- the surgeon directs the distal end hard portion 14 of the insertion portion 11 toward a deep part in the large intestine as shown in FIG. To insert.
- the operator can smoothly insert the distal end rigid portion 14 of the insertion portion 11 to the vicinity of the cecum 79 without losing sight of the insertion direction.
- the guide tube is passed through the treatment tool insertion channel provided in the insertion section, and the guide tube is inserted to a target site in the large intestine.
- a procedure for inserting the guide tube into the treatment instrument insertion channel after inserting the guide tube to the target site can be omitted. Therefore, from the start of insertion of the guide tube, The time to start is reduced.
- the other actions and effects are the same as those of the first embodiment.
- a control unit 7E is provided in place of the rotation control box 7, and a plurality of operating members for generating a predetermined instruction signal are provided in the operating unit 12E of the endoscope 2E. For this reason, the operator can easily perform the operation of controlling the rotation of the guide tube 21 at his / her own hand. Therefore, a more secure and more efficient insertion operation can be performed.
- An independent operating member may be separately connected to the control unit 7E.
- the operation member provided independently may be, for example, a foot-operated foot switch. Then, for example, an instruction signal for emergency stop is generated at the foot switch. Accordingly, when the operator performs an operation or examination using both hands and wants to stop the movement of the guide tube 21A for some reason, the operator can depress the foot-operated foot switch to insert the insertion device. Operation can be stopped urgently.
- the foot-operated foot switch may be separately provided and connected to a rotation control box to be similarly configured.
- an emergency stop operation member may be provided on the operation plate of the rotation control box! ⁇ .
- the endoscope system of the present embodiment has basically the same configuration as that of the first embodiment and the fourth embodiment described above.
- the guide tube rotating device is configured to be operated by the emergency stop operation member. Therefore, for other configurations, the above-described first and fourth embodiments are referred to, and the same members are denoted by the same reference numerals, and detailed description thereof will be omitted.
- the guide tube rotating device 22C of the insertion device constituting the endoscope system of the present embodiment is configured to rotate the plan tube 21 and to move the guide tube 21 straight. Therefore, as shown in FIG. 24, the guide tube rotating device 22C includes a device main body 55, a device power bar 56, a guide tube rotating motor (hereinafter referred to as a first motor) 57, and a guide tube feed motor. (Hereinafter, referred to as a second motor) 58 and an emergency stop motor (hereinafter, referred to as a third motor) 60.
- a guide tube arrangement groove 55b in which the guide tube 21 is arranged is formed at a predetermined position on the upper plane of the apparatus main body 55.
- the first motor 57 is a motor that rotates the guide tube 21 arranged in the guide tube arrangement groove 55b around an axis.
- a rotation roller 57b is fixed to a motor shaft 57a of the first motor 57.
- the rotation roller 57b has a predetermined elastic force.
- the second motor 58 is a motor that moves the guide tube 21 disposed in the guide tube placement groove 55b straight at a predetermined speed in the guide tube axial direction.
- a straight traveling roller 58b is fixed to a motor shaft 58a of the second motor 58.
- the straight traveling roller 58b has a predetermined elastic force.
- the motor shaft 57a of the first motor 57 is installed in a positional relationship that is parallel to the upper flat surface 55a of the device main body 55 and also parallel to the groove 55b.
- the motor shaft 58a of the second motor 58 is arranged in a positional relationship parallel to the upper flat surface 55a of the device main body 55 and orthogonal to the groove 55b.
- the first motor 57 is fixed to a predetermined position of the hanging tool 59 by a first mounting tool 59a.
- the second motor 58 is also fixed to a predetermined position of the hanging member 59 by a second mounting member 59b.
- the rotation roller 57b is brought into contact with the guide tube 21 with a predetermined pressing force, and in this state, the first motor 57 is driven. As a result, the rotation roller 57b rotates in the predetermined direction, and the guide tube 21 rotates around the axis.
- the straight traveling roller 58b is brought into contact with the guide tube 21 with a predetermined pressing force, and in this state, the second motor 58 is driven. As a result, the straight traveling roller 58b rotates in a predetermined direction, and the guide tube 21 moves straight.
- the third motor 60 is a motor that moves the hanging tool 59 in the direction of arrow X shown in FIG.
- the third motor 60 is fixed to the top surface of the device cover 56.
- a screw member 60b is fixedly provided at the tip of the motor shaft 60a of the third motor 60.
- the member 60b is screwed to a screw portion 59c formed at a predetermined position of the hanging member 59. Therefore, by driving the third motor 60 to rotate the screw member 60b fixed to the motor shaft 60a in a predetermined direction, the hanging member 59 moves in the arrow X direction shown in FIG.
- the operation when the emergency stop operation member is operated is as follows.
- the first motor 57 and the second motor 58 are stopped.
- the rotation and the straight traveling of the guide tube 21 are stopped.
- the rotation roller 57b and the translation roller 58b are in contact with the guide tube 21.
- the guide tube 21 is fixed at the position at the time when both motors 57 and 58 stop.
- the third motor 60 is subsequently driven. Then, the screw member 60b fixed to the motor shaft 60a of the third motor 60 rotates in a predetermined direction, and the hanging member 59 moves in the arrow XI direction shown in FIG. As a result, the first motor 57 and the second motor 56 integrally fixed to the hanging member 59 are moved in the same direction. Then, the rotation roller 57b and the translation roller 58b are separated from the guide tube 21, and the contact state is released. That is, the guide tube 21 can be freely moved.
- the emergency stop operation member when the emergency stop operation member is operated, the first motor 57 and the second motor 58 are stopped, and then the third motor 60 is turned off. Drive. Thus, the contact state between the rotation roller 57b and the linear motion roller 58b and the guide tube 21 is released. Therefore, during operation of the endoscope system, by operating the emergency stop operation member, the rotation of the guide tube 21 and the operation of moving straight ahead are immediately stopped, and the guide tube 21 is set in the free state. be able to.
- the operation of the emergency stop operation member is performed, so that the drive of the guide tube 21 is stopped, and then the guide tube 21 is set in the free state.
- the structure has been realized.
- an automatic manual switching operation member is provided separately from the emergency stop operation member.
- the operation of the guide tube 21 can be switched between an automatic operation by a motor and a manual operation of moving the guide tube 21 manually.
- a rotation control unit such as a rotation control box or a control system connects each device using a connection cable or the like.
- the connection means between the devices is not limited to the connection cable or the like, and a remote control system may be applied.
- the remote control system transmits various instruction signals to a predetermined control device by, for example, wireless communication means using infrared rays or the like.
- various cables for connecting the devices can be reduced.
- control of the rotation speed and the rotation direction of the guide tube can be performed more reliably, for example, by performing the following control.
- the horizontal axis represents the time axis
- the vertical axis represents the rotation direction of the guide tube.
- plus (+ in the figure) indicates a case where the guide tube is rotated forward, and in this case, the guide tube moves forward.
- minus (-in the figure) indicates the case where the guide tube is reversed, and in this case, the guide tube moves backward.
- Zero (0 in the figure) indicates a state where the rotation of the guide tube is stopped.
- the guide tube is driven to rotate. Then, it is driven from the zero point in the plus direction for a predetermined time a. Then, after the driving direction has turned to the minus direction, the driving is performed for a predetermined time b.
- time a> time b it is set so that time a> time b.
- a program describing such a control pattern is stored in the control unit of the guide tube rotating device in advance.
- the information is stored in the storage unit. This makes it possible to always rotate the guide tube in the same operation pattern.
- control patterns shown in the figure are merely examples, and the control patterns are not limited to these, and various control patterns can be considered.
- a plurality of such control patterns may be prepared in advance, and a suitable control pattern may be selected according to the purpose of use of the endoscope system. Further, the control pattern may be freely created by the user, and the endoscope system may be operated using the control pattern created by each user.
- the endoscope system can be operated more safely and reliably.
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Abstract
Description
Claims
Priority Applications (2)
Application Number | Priority Date | Filing Date | Title |
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JP2006513592A JP4500310B2 (ja) | 2004-05-14 | 2005-05-16 | 挿入装置、及び内視鏡システム |
US11/598,424 US20070059990A1 (en) | 2004-05-14 | 2006-11-13 | Insertion device and endoscopic system |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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JP2004145700 | 2004-05-14 | ||
JP2004-145700 | 2004-05-14 |
Related Child Applications (1)
Application Number | Title | Priority Date | Filing Date |
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US11/598,424 Continuation US20070059990A1 (en) | 2004-05-14 | 2006-11-13 | Insertion device and endoscopic system |
Publications (1)
Publication Number | Publication Date |
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WO2005110193A1 true WO2005110193A1 (ja) | 2005-11-24 |
Family
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Family Applications (1)
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PCT/JP2005/008914 WO2005110193A1 (ja) | 2004-05-14 | 2005-05-16 | 挿入装置、及び内視鏡システム |
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US (1) | US20070059990A1 (ja) |
JP (1) | JP4500310B2 (ja) |
WO (1) | WO2005110193A1 (ja) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2007252467A (ja) * | 2006-03-22 | 2007-10-04 | Olympus Medical Systems Corp | 内視鏡システム、及び、手動回転装置 |
JP2008154758A (ja) * | 2006-12-22 | 2008-07-10 | Olympus Corp | 挿入部保持装置 |
Families Citing this family (2)
Publication number | Priority date | Publication date | Assignee | Title |
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WO2012006408A1 (en) * | 2010-07-08 | 2012-01-12 | Given Imaging Ltd. | Cryo-therapy spray device |
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Also Published As
Publication number | Publication date |
---|---|
JP4500310B2 (ja) | 2010-07-14 |
JPWO2005110193A1 (ja) | 2008-03-21 |
US20070059990A1 (en) | 2007-03-15 |
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