JP3780016B2 - Endoscope treatment instrument insertion / extraction device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an endoscope treatment tool insertion / extraction device for inserting a treatment tool such as forceps or a tube into a channel of an endoscope.
[0002]
[Prior art]
Conventionally, when a treatment instrument such as forceps or a tube is inserted into a channel of an endoscope, an operator pushes it in little by little while holding the sheath portion of the treatment instrument.
However, when inserting a treatment instrument into an endoscope channel having a total length of 2 m, such as an endoscope for a deep colon, it is extremely troublesome and work such as biopsy is very troublesome. . If an excessive bending force is applied to the sheath portion of the treatment instrument exposed from the endoscope channel as soon as the treatment instrument is inserted too quickly, it may cause buckling of the sheath. Was a cumbersome work with great care so as not to apply unnecessary bending force.
[0003]
As means for solving such a problem of a general treatment instrument insertion technique, for example, an “endoscope treatment instrument insertion / extraction device” proposed in Japanese Patent Laid-Open No. 56-8028 is known. In this method, the sheath of the treatment instrument is sandwiched between a pair of rollers, and the roller is rotationally driven to automatically insert / remove the treatment instrument.
[0004]
Japanese Patent Application Laid-Open No. 57-117823 also discloses an “endoscope with a treatment instrument insertion / extraction device”. This shows a treatment instrument insertion / extraction apparatus having a drive mechanism for inserting a treatment instrument and means for detecting the insertion amount, and controlling the drive mechanism based on information on the insertion amount.
[0005]
[Problems to be solved by the invention]
(Problems of conventional technology)
In the conventional example, the parts constituting the apparatus are arranged in a lump around the drive mechanism, and are surrounded by a box-shaped cover.
However, the above-mentioned parts, such as motors, power supply circuits, control circuits, and drive rollers, require a relatively large amount of space, so the conventional configuration described above has a relatively large box shape and is difficult to grip with one hand. .
[0006]
In general, since the doctor's left hand is used to hold the endoscope body, the doctor can use only the right hand, but due to the circumstances described above, the treatment instrument insertion / extraction device cannot be easily handled with the right hand alone.
Therefore, when using the endoscope treatment tool insertion / extraction device, an assistant is required to operate it.
Moreover, since the assistant who operates the treatment instrument insertion / extraction apparatus for endoscope can only operate and hold the apparatus, another assistant for the operation of the treatment instrument is further required.
[0007]
(Object of invention)
The present invention has been made in view of the above circumstances, and an object of the present invention is to make it possible for a doctor or an assistant to perform a treatment instrument operation by easily grasping the treatment instrument insertion / extraction device for an endoscope with one hand. Therefore, it is intended to provide an endoscope treatment tool insertion / extraction device that can handle the treatment tool insertion / extraction device and reduce the number of workers and the complexity of work.
[0008]
[Means for Solving the Problems]
The present invention accommodates a driving roller that engages with a sheath portion that constitutes a treatment instrument and pulls back the treatment instrument, a drive mechanism that rotationally drives the drive roller, the drive mechanism, and the drive on the upper surface thereof A roller cover is provided, and a grip cover portion is provided with a grip portion on the side surface. The drive roller is not accommodated in the grip cover part. This is an endoscope treatment tool insertion / extraction device. According to this, a grip part can be grasped with one hand, and the other assistant for operation and holding of the device becomes unnecessary.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
<First Embodiment>
A first embodiment of the present invention will be described with reference to FIGS.
(Constitution)
FIG. 2 is an explanatory diagram showing a schematic configuration of the entire endoscope apparatus. The endoscope 1 includes an operation unit 2, and the operation unit 2 is provided with a grip unit 2 a for holding the operation unit 2 by hand.
An insertion unit 3 and a universal cord 4 are connected to the operation unit 2. A connector 5 is provided at the end of the universal cord 4 on the extending side, and this connector 5 is detachably connected to an endoscope light source device 6 for supplying illumination light.
[0010]
The insertion portion 3 is provided with a distal end configuration portion 9 via a bending portion 8. The bending portion 8 is bent by an angle knob 7 provided in the operation portion 2. The distal end configuration portion 9 is provided with a distal end opening 9d of a treatment instrument insertion channel inserted in the insertion portion 3. Furthermore, the distal end component 9 is provided with an observation window 9b, a nozzle 9a that can supply air and water toward the observation window 9b, and an illumination window 9c for illuminating the observation object. . At the base end portion of the insertion portion 3, a folding cover 3 a is provided for preventing sudden bending and damage.
[0011]
The operation unit 2 is provided with a treatment instrument insertion port 10 that forms an opening at the other end of the channel. This treatment instrument insertion port portion 10 is formed by forming an insertion opening portion 10b communicating with the channel at the projecting tip portion of an extension portion 10a that is integral with the main body of the operation portion 2 and projects obliquely upward. is there.
[0012]
A forceps plug 11 is attached to the insertion opening 10b as necessary. The forceps plug 11 is provided with a hole 11a that can be hermetically penetrated through a treatment instrument 100 described later and is normally closed.
On the outer peripheral side surface of the extension portion 10a in the treatment instrument insertion port portion 10, there are provided connection grooves 12 which are rectangular holes located at two symmetrical positions with respect to the central axis of the insertion opening portion 10b. An automatic endoscope treatment instrument insertion / removal device 25 described later is detachably attached to the treatment instrument insertion port 10 using the connection groove 12.
[0013]
The connector 5 of the universal cord 4 is connected to an air supply device 13, a water supply device 14, and a gas supply device 15, and is connected to a video processor 16 that processes video signals via a connection adapter 16a. .
[0014]
The video processor 16 has a monitor 17 for displaying a subject image based on a video signal subjected to signal processing, a VTR deck 18 for recording / reproducing the video signal, a video printer 19 for printing a subject by the video signal, and a large video signal recording unit. A video disk 20 or the like which is a storage device having a capacity is connected. The video processor 16 is operated by a switch 21 provided in the operation unit 2.
[0015]
Further, the operation unit 2 is connected to a nozzle 9a that opens to the distal end constituting unit 9 of the insertion unit 3, and supplies an air / water supply switching device 22 for supplying and supplying air, a suction operation device 23 for sucking, and a CO 2 ₂ A gas feeding operation device 24 for pumping a gas such as an inert gas is provided.
[0016]
Next, the treatment tool 100 used by being inserted into the channel of the endoscope 1 will be described. As shown in FIG. 3, the treatment instrument 100 includes a sheath 101 that is an elongated member having an outer diameter smaller than the inner diameter of the endoscope channel and having flexibility. A treatment unit 102 that performs treatment in the body is provided. A grip portion 103 is connected to the proximal end of the sheath 101. The grip portion 103 is provided with a handle portion 104 for operating the treatment portion 102. The treatment tool 100 is suitable for various treatments depending on the type of the treatment unit 102, and various kinds such as a biopsy forceps, a high-frequency snare, and a grasping forceps are known.
[0017]
Next, the endoscope treatment tool insertion / extraction device 25 shown in FIG. 1 will be described. The endoscope treatment instrument insertion / extraction device 25 has a box-shaped grip cover 26. A grip portion 26 a is formed on the outer periphery of the grip cover 26. The grip cover 26 houses a battery box, a motor, an encoder, a rotation transmission gear train, a control circuit, wiring, and the like described below.
[0018]
A battery case 28 in which a battery 27 is loaded is disposed in the lower portion of the grip cover 26. The battery 27 supplies electric power to the motor 29 via a control circuit (not shown) by a wiring (not shown).
[0019]
In this embodiment, the battery 27 is used as the power source, but the type of the battery 27 is not particularly limited. Further, instead of the battery 27, a mechanism using an AC power source may be used, and it is not always necessary to incorporate a power source in the endoscope treatment instrument insertion / extraction device 25, and power may be taken in from the outside. It ’s good.
[0020]
Although a DC motor is used as the motor 29 in this embodiment, the type of the motor 29 is not particularly limited, and for example, an AC motor, a DC servo motor, a stepping motor, an ultrasonic motor, or the like may be used. .
[0021]
The motor 29 is arranged vertically along the axial direction of the grip cover 26, and its drive shaft 28a projects upward. The drive shaft 28a of the motor 28 is connected to a treatment tool insertion / extraction drive roller 31 and an encoder 32 through a gear train mechanism as described below. That is, the pinion gear 33 is integrally connected to the drive shaft 28a. A gear 34 meshes with the pinion gear 33, and an intermediary gear 36 is provided on the rotation shaft 35 of the gear 34. The gear 34 and the gear 36 are integrally fixed to the same rotation shaft 35, and the gear 34, the rotation shaft 35, and the gear 36 rotate integrally around the axis center of the rotation shaft 35. Yes.
[0022]
The gear 36 meshes with a gear 37 attached to the input shaft 32 a of the encoder 32. The gear 37 is integrally attached to the input shaft 32a of the encoder 32, and the gear 37 rotates integrally with the input shaft 32a to operate the encoder 32. When the input shaft 32a of the encoder 32 rotates, the encoder 32 transmits a pulse signal and transmits the pulse signal to the control circuit (not shown) through a wiring (not shown).
[0023]
In the present embodiment, the insertion amount of the treatment tool is detected using the encoder 32, but the insertion amount may be detected by marking the treatment tool and reading it. Examples of marking include a method of providing a projection on the sheath of the treatment instrument and reading it with a piezoelectric element, a method of partially changing the reflectivity of the sheath and reading it with an optical element, or attaching a magnetic substance to the sheath. Various methods such as a method of reading it with a magnetic head are conceivable, but any method may be used. In addition, a tachometer may be combined with the encoder 32, or a plurality of the above methods may be used in combination.
[0024]
On the other hand, the gear 36 meshes with a gear 41 of another gear train. The gear 41 is fixedly attached to the rotating shaft 42. The other end of the rotating shaft 42 passes through the upper wall of the grip cover 26 and protrudes to the outside of the grip cover 26, and a driving gear 43 of the external drive gear train is integrally fixed to the protruding end portion. The gear 41, the rotation shaft 42, and the gear 43 rotate integrally around the rotation shaft 42 as an axis center. An O-ring 44 is provided at the boundary between the rotary shaft 42 penetrating the upper wall of the grip cover 26 and the grip cover 26 so as to keep the penetrating portion watertight. The O-ring 44 is sandwiched and held between the grip cover 26 and an O-ring stopper member 45 bonded and fixed thereto.
[0025]
A passive gear 46 meshes with the external drive gear 43. The passive gear 46 is connected in a state of being integrally fixed to a rotating shaft 47 that is pivotally supported by penetrating an upper right cover described later. A treatment tool insertion / extraction drive roller 31 made of a cylindrical elastic member is connected to the outer penetrating end of the rotation shaft 47 in a state of being integrally fixed. The passive gear 46, the rotating shaft 47, and the driving roller 31 are integrally rotated with respect to the center of the rotating shaft 47.
[0026]
The configuration of the gear train described above is not particularly limited to that described above, and may be changed in any way as necessary, and a chain, a belt, a pulley, or the like may be used.
[0027]
An upper right cover 51 as schematically shown in FIG. 5 is attached to the upper surface of the grip cover 26. The upper right cover 51 is formed by integrally connecting a front cover 53 and a tongue 54 made of a plate-like member following the rear end of the upper cover 51 so as to cover the upper surface of the grip cover 26 entirely. Yes. The tongue 54 is provided with an attachment hole 54a. The upper right cover 51 is fixedly attached to the grip cover 26 by screwing the attachment screw 55 into the screw hole 56 formed in the upper wall of the grip cover 26 through the attachment hole 54a. Yes.
[0028]
As shown in FIG. 1, the front cover portion 53 has a space 52 for accommodating the drive gear 43 and the passive gear 46 in the external drive gear train on the lower surface thereof, and when the front cover portion 53 is attached to the grip cover 26. The gears 43 and 46 are covered. A lower end portion 57 of the front end wall of the front cover portion 53 is bent in an L shape toward the inside thereof. The lower end portion 57 is engaged with the lower end of the flange portion 58 protruding from the front upper end of the grip cover 26 so as to be in contact therewith. The end face shape of the lower end portion 57 is a rectangular flat surface, and this portion is in contact with the front surface 59 of the grip cover 26 that is also a flat surface. Further, the side surface of the lower end portion 57 and the side surface of the flange portion 58 are also in contact with each other.
[0029]
As shown in FIG. 5, a cover portion 61 that covers both the drive gear 43 and the passive gear 46 in the external drive gear train in the front cover portion 53 is formed to protrude higher than the other portions. A low flat portion 62 is formed on the left side portion. An opening 63 is formed in the left side wall of the cover portion 61 so as to open toward the flat portion 62 and expose the circumference of the drive roller 31.
[0030]
As shown in FIG. 4, a left upper cover 64 is installed on the flat portion 62 of the front cover portion 53. The upper left cover 64 has the same height as the cover portion 61. As shown in FIG. 5, the left upper cover 64 is integrally provided with a rectangular parallelepiped projection 66 that projects downward in the same manner as the bar-shaped cover rod connecting arm 65 that projects downward. Corresponding to the cover rod connecting arm 65 and the protrusion 66, the flat portion 62 of the front cover portion 53 is formed with passage holes 67 and 68 for inserting them. An elastic claw 66 a is formed at the tip of the projection 66. The elastic claw 66 a is fitted with a left cover retaining ring 69, which is a donut-shaped elastic body whose outer shape is larger than the diameter of the passage hole 68, so as to prevent the projection 66 from coming off from the passage hole 68. It has become.
[0031]
The left cover retaining ring 69 prevents the upper left cover 64 from falling off from the front cover portion 53 and is movable in the direction toward the opening 63 of the upper right cover 51. As shown in FIG. 4, an opening 71 that opens toward the cover portion 61 of the upper right cover 51 is formed on the left side surface of the upper left cover 64. The opening 71 faces the opening 63 of the upper right cover 51. Therefore, when the left upper cover 64 is moved until it abuts against the front cover portion 53, as shown in FIG. 4, both the cover portions 53 and 64 drive to insert and remove the treatment instrument 100. The drive roller 31 and the adjustment roller 72 of the mechanism are completely covered and closed so that they are not exposed to the outside.
[0032]
An adjustment roller 72, which is a cylindrical elastic member, is provided inside the upper left cover 64, and this adjustment roller 72 is disposed to face the drive roller 31 from the opening 71. The adjustment roller 72 is rotatably supported by a shaft 74 that is integrally fixed to a rod 73 that is an elongated plate-like member.
[0033]
The rod 73 is provided so as to be linked to a holding force adjusting portion 75 described later. That is, the rod 73 passes through the receiving ring 76 and is supported so as to be smoothly movable in the longitudinal axis direction. The receiving ring 76 is formed with a threaded portion 77 on its outer periphery and is screwed to the left upper cover 64. A disc-shaped flange portion 73 a is integrally formed at the projecting tip of the rod 73 that penetrates the receiving ring 76. The inner diameter of the receiving ring 76 is slightly larger than the outer diameter of the rod 73. The flange portion 73a is configured to slide coaxially within a cylindrical adjustment dial mounting portion 78 formed integrally with the left upper cover 64. A rod-like convex portion 73b is integrally fixed to the flange portion 73a substantially in the same manner as the central axis.
[0034]
A coil spring 79 that presses the rod 73 is loaded in the adjustment dial mounting portion 78. One end of the coil spring 79 hits the end surface of the flange portion 73a of the rod 73 and elastically presses the rod 73.
[0035]
A cup-shaped adjustment dial 81 is rotatably attached to the adjustment dial mounting portion 78. A cam groove 82 is provided on the outer peripheral surface of the adjustment dial mounting portion 78 in a spiral shape. The adjustment dial 81 has a cam pin 83 projectingly engaged with and engaged with the cam groove 82. The adjustment dial 81 is provided with an adjustment dial shaft 84 that can enter the inside of the adjustment dial mounting portion 78 concentrically with the adjustment dial 81. The front end surface of the adjustment dial shaft 84 is pressed against the other end of the coil spring 79.
[0036]
If the adjustment dial 81 is rotated clockwise by the cam structure constituted by the cam groove 82 and the cam pin 83, the adjustment dial shaft 84 moves rightward in FIG. When rotated clockwise, it moves to the left in FIG. Thereby, the holding force of the treatment tool sandwiched between the drive roller 31 and the adjustment roller 72 can be adjusted.
[0037]
In this embodiment, the adjustment dial 81 has a cam structure. However, a screw that can be screwed is provided on both of the adjustment dial 81 and the adjustment dial mounting portion 78, and the rotation by the screwing of both adjusts the front and rear in the longitudinal axis direction. It is good also as a structure to do. Moreover, you may provide the structure which keeps a watertight by the O-ring, an adhesive agent, etc. at the sliding part and the junction part of each component.
[0038]
A connecting arm 85, which is a plate member having elasticity, is integrally formed at the front end of the upper right cover 51 so as to protrude forward, and a plate member having elasticity is also formed at the front end of the left upper cover 64. A connecting arm 86 projects forward and is integrally formed. The connecting arms 85 and 86 are arranged in parallel, and flanges 85a and 86a, which are hook-shaped projections, are provided at their tips so as to face the inside thereof. As shown in FIG. 8, the connecting arms 85 and 86 sandwich the outer peripheral surface of the extending portion 10a of the treatment instrument insertion port portion 10 provided in the operation portion 2 of the endoscope 1, and the collar portions 85a and 86a. Are inserted into the corresponding connection grooves 12 and hooked to each other to constitute a means for mounting the treatment instrument insertion / extraction device 25 to the endoscope 1. The flanges 85a and 86a of the connection arms 85 and 86 can be attached to the connection groove 12 of the endoscope 1 with the left upper cover 64 closed.
[0039]
In the present embodiment, the connecting arms 85 and 86 are provided with hook-shaped protrusions that do not easily release the connection with the endoscope 1 in a normal use state. Any protrusion may be used as long as it cannot be easily disconnected. For example, a semi-disc shape or a hemispherical shape may be used.
[0040]
The means for attaching the endoscope treatment instrument insertion device 25 to the endoscope 1 is not necessarily limited to the above-described configuration. For example, three or more devices corresponding to the connection arms 85 and 86 are provided to stabilize the connection. It is also possible to increase the nature.
A modification as shown in FIG. 9 is also conceivable. That is, at least one or more holes or holes 87 are provided in a part of the side surface of the extending portion 10a of the treatment instrument insertion port portion 10, and a connection arm 88 having an outer shape fitted thereto is provided.
Moreover, the thing of a modification as shown in FIG. 10 may be used. FIG. 10 shows a cylindrical member 89 having an inner shape substantially the same as the outer shape of the extension portion 10a of the treatment instrument insertion port portion 10 instead of the connecting arm, and covers the extension portion 10a. It is a structure. This grips the grip part 26a with a hand and presses it against the outer surface of the extension part 10a of the endoscope 1 so that the connection with the endoscope 1 is maintained.
[0041]
Further, in the present embodiment, the connection between the treatment instrument 100 and the endoscope 1 is released at the same time, but of course, the connection may be released separately.
11 is removed from the grip cover 26 by removing the mounting screw 55 from the component group that is integrally or movably attached to the upper right cover 51 shown in FIG. Is possible.
[0042]
By the way, as shown in FIG. 12, in the state where the upper left cover 64 is abutted against the upper right cover 51, the contact portion between the upper left cover 64 and the upper right cover 51 is on the front side of the cover. Is provided with an insertion port 91 through which the sheath 101 of the treatment instrument 100 is guided into the left upper cover 64 and the upper right cover 51, and the treatment tool 100 is placed on the upper right cover 51 and the left upper cover 64 on the rear surface of the cover. There is provided a delivery port 92 that leads from the inside to the outside.
[0043]
That is, as shown in FIGS. 4 and 12, the insertion port 91 and the delivery port 92 have the upper right cover 51 and the upper left cover 64 when the upper left cover 64 is abutted against the upper right cover 51. The notches 93 and 94 formed at the joint end portions are respectively formed.
[0044]
With the upper left cover 64 closed, the flanges 85a and 86a of the connection arms 85 and 86 are attached to the connection groove 12 of the endoscope 1 and held in this state by locking means described later. In a state where the endoscope treatment tool insertion / extraction device 25 is mounted on the endoscope 1, the end surface of the forceps plug 11 comes into contact with the cover end surface, and the positions of the hole 11 a of the forceps plug 11 and the delivery port 92 are aligned. It has become.
[0045]
Further, as shown in FIG. 11, an insertion length setting switch 95 for selecting a length for inserting the treatment instrument 100 into the channel of the endoscope 1 is provided on the side surface of the grip cover 26. Is connected to the control device (not shown) via a wiring (not shown). The insertion length setting switch 95 is installed at a position where a finger does not touch when gripping the grip portion 26a.
[0046]
Further, a drive switch 96 is provided on the front surface of the grip cover 26 to start driving the motor 29 by pushing it, and this is also connected to the control device (not shown) via a wiring (not shown). . The drive switch 96 is provided at a position where the index finger can touch when the grip 26a is gripped.
On the other hand, as shown in FIG. 12, the treatment instrument 100 to be used may have a stopper 97 attached to the sheath 101 in advance. The stopper 97 has a tightening screw 98 as shown in FIG. 13, and is configured by integrating the abutting portion 98a and the male screw portion 98b. Further, the tightening screw 98 is provided with a hole 98 c having an inner diameter substantially the same as the outer diameter of the sheath 101.
[0047]
A cylindrical elastic member 99 abuts against a threaded end surface 98d of the tightening screw 98. The inner diameter of the cylindrical elastic member 99 is substantially the same as the outer diameter of the sheath 101 of the treatment instrument 100. Further, the outer shape of the cylindrical elastic member 99 is tapered.
[0048]
In a state where the cylindrical elastic member 99 is abutted against the tightening screw 98, a tightening ring 99a is fitted and assembled to the outer periphery thereof.
The said fastening ring 99a is a cylindrical member, and this is comprised by integrating the internal thread part 99b and the taper part 99c.
[0049]
The internal shape of the tapered portion 99c is substantially the same as the tapered shape of the cylindrical elastic member 99. When the fastening ring 99a is screwed into the male screw portion 98b of the fastening screw 98, the cylindrical elastic member 99 is elastically deformed. Then, the sheath 101 is fastened and fixed. The sheath 101 can be fixed at an arbitrary position by an operation of screwing the female thread 99b of the fastening ring 99a with the male thread 98b of the tightening screw 98.
[0050]
As shown in FIG. 12, this stopper 97 is provided with a notch 97a for allowing the treatment tool to be mounted from the side surface over all side surfaces of the fastening ring 99a, the cylindrical elastic member 99, and the fastening screw 98. It has been.
[0051]
Note that the stopper 97 may be provided integrally with the sheath 101, for example, as long as the stopper 97 is provided with a projection on the sheath 101 without using the structure described above. Next, with reference to FIG. 14, a lock mechanism 110 of the upper left cover 64 as an example will be described. The lock mechanism 110 is configured to fix the movement of the left upper cover 64 in a state where the left upper cover 64 is closed and to release the fixation. That is, a release button attaching pressing member 111 is provided on the front wall portion of the upper right cover 51 of the grip cover 26. The button pressing member 111 is fixedly attached to the upper right cover 51 with a plurality of screws 112. A relatively small diameter through hole 113 is formed in the front wall portion of the upper right cover 51. A mounting hole 114 having a relatively large diameter is formed stepwise coaxially with the through hole 113 over the front wall portion of the upper right cover 51 and the button mounting pressing member 111. The large-diameter mounting hole 114 is concentrically formed in the cylindrical portion 111a of the button mounting pressing member 111.
[0052]
A release button 115 is loaded in the mounting hole 114. The release button 115 has a locking shaft 116 penetrating the through hole 113, and a cylindrical button portion 117 is integrally formed at the outer end thereof. A disc-shaped flange 118 that can slide in the mounting hole 114 is formed at the inner end of the button portion 117. The button portion 117 has the same outer shape as the outer end hole portion of the attachment hole 114. The release button 115 may be rotatable about its axis, but may be configured in a non-rotating state, for example, by changing the shape of the fitting portion.
[0053]
A coil spring 119 is wound around the outer periphery of the locking shaft 116 while being accommodated in the mounting hole 114. One end of the coil spring 119 hits the flange 118, the other end of the coil spring 119 hits the step end surface 120 of the mounting hole 114, and elastically biases the release button 115 in the upward projecting direction. In the standby state shown in FIG. 14, the flange 118 of the release button 115 is in contact with the flange 121 formed on the outer edge of the mounting hole 114.
[0054]
A hole 123 through which a cover rod 122, which is a rod-shaped member, is provided at the tip of the locking shaft 116 that passes through the through hole 113. The cover rod 122 is provided on the inner surface of the upper right cover 51 so as to be movable in the longitudinal axis direction. A flange 124 is formed at one end of the cover rod 122 so as to rise and bend. A rod 125 projects from the flange 124. A coil spring 126 interposed between the upper right cover 51 and the flange 124 of the cover rod 122 is wound around the rod 125.
[0055]
A locking protrusion (鈎) 127 is integrally provided in the middle portion of the cover rod 122. The protrusion 127 has a right triangle shape having a rising wall and an inclined surface. The rising wall serves as a locking end 127a, and the inclined surface serves as a guide surface 127b. That is, when the cover rod 122 is moved to the right in FIG. 14, the locking projection 127 penetrates the hole 123 in the locking shaft 116 of the release button 115 and the locking end 127a of the locking projection 127 is The hole 123 is held by striking and engaging with the outer peripheral surface of the periphery. At this time, the coil spring 119 is in a compressed state. When the release button 115 is pushed in from this state, the locking end 127a is released, and the cover rod 122 moves to the left in FIG. 14 by the elastic biasing force of the coil spring 119. When the cover rod 122 is moved to the right in FIG. 14, the locking shaft 116 of the release button 115 is pulled down by the guide surface 127b, and the locking end 127a is locked to the outer peripheral surface of the hole 123 of the shaft 116. The release button 115 is automatically raised and restored by the coil spring 119.
[0056]
The cover rod connecting arm 65 of the upper left cover 64 is integrally connected to the other end portion 128 of the cover rod 122. In FIG. 14, the upper left cover 64 is in a closed state, and when this is closed, the cover rod 122 can pass through the hole 123 in the locking shaft 116 of the release button 115. When the upper left cover 64 is closed, the locking protrusion 127 is caught so that it cannot pass through the hole 123 unless the release button 115 is pushed. That is, the left upper cover 64 is fixed in a closed state, and the fixing can be released by operating the release button 115.
[0057]
The release mechanism by the release button 115 is merely an example. In short, it is sufficient that at least one of the left and right upper covers is opened by operating the release button 115.
Alternatively, even if the upper cover is not automatically opened by the release button 115, a stopper is provided to prevent the upper cover from being opened or a stopper is provided to prevent the upper cover from opening when the upper cover is opened. You may use the structure which opens with.
[0058]
Further, in the present embodiment, the connection between the treatment instrument 100 and the endoscope 1 is released at the same time, but of course, the connection may be released separately.
Furthermore, in the present embodiment, the entire apparatus is configured to be removable from the treatment instrument 100 and the endoscope 1, but it is not particularly necessary to remove the entire apparatus. For example, only the portion corresponding to the treatment instrument mounting portion 90 can be removed. A structure in which the internal structure of the grip portion 26a is built in the endoscope 1 is also conceivable.
[0059]
In addition, the endoscope treatment instrument insertion / extraction device 25 according to the present embodiment is configured to be limited to insertion only. It may be something that causes
[0060]
The insertion port 91 in the treatment instrument insertion / extraction device 25 of the present embodiment faces the front side of the person holding the grip portion 26a including the grip cover 26, but it is not necessary to limit to this direction.
For example, for a person who takes an operation method of grasping the grip portion 26a with the right hand and grasping the treatment instrument 100 with the left hand, the orientation of the insertion port 91 is set to the left hand of the person who operates the endoscope treatment instrument insertion / extraction device 25. It may be possible to go to the side. Or, conversely, for the person who holds the grip part 26a with the left hand and operates the treatment instrument 100 with the right hand, the direction of the insertion port 91 is changed to the right hand of the operator of the treatment instrument insertion / extraction device 25 for the endoscope. You may make it go to.
[0061]
Further, when the operator who handles the endoscope 1 operates the operation unit 2 with the left hand and the treatment instrument 100 with the right hand, when the endoscope treatment instrument insertion / extraction device 25 is connected to the endoscope 1. The direction of the insertion port 91 may be directed to the right hand of the operator of the endoscope 1. Furthermore, it can be considered that the direction of the insertion port 91 can be varied to some extent. For example, as shown in FIG. 15, it is good also as a structure where the direction is variable by forming through the spherical joint 129. FIG.
[0062]
On the other hand, as shown in FIG. 4 and FIG. The front cover portion 53 is integrally or integrally provided at the offset position. Further, a guide portion 132 having a line symmetry with the guide portion 131 is installed with respect to a line connecting the center of the insertion port 91 and the delivery port 92. This is also provided integrally or integrally with the front cover portion 53.
[0063]
The distance from the insertion port side end 131 a of the guide portion 131 to the circumference of the drive roller 31 is smaller than twice the outer diameter of the sheath 101 of the treatment instrument 100. Similarly, the distance from the insertion port side end portion 132 a of the guide portion 132 to the circumference of the adjustment roller 72 is smaller than twice the outer diameter of the sheath 101 of the treatment instrument 100.
[0064]
This is due to the following reason. The distance from the insertion port side end portions 131a and 132a of the guide portions 131 and 132 to the circumferential surfaces of the drive roller 31 and the adjustment roller 72 is exactly twice the outer diameter of the treatment instrument 100. In this case, if buckling occurs in the sheath 101 of the treatment instrument 100, a case as shown in FIG. If the distance between the rollers 31 and 72 and the guide portions 131 and 132 is not at least twice the outer diameter of the sheath 101 of the treatment instrument 100, the sheath 101 can be bent as shown in FIG. Absent. Therefore, even if the insertion speed of the sheath 101 is considerably increased if the gaps between the rollers 31 and 72 and the guide portions 131 and 132 are set to a distance smaller than twice the outer diameter of the sheath 101 of the treatment instrument 100. The sheath 101 does not buckle.
[0065]
In addition, the distance from the outlet side end portions 131b and 132b of the guide portions 131 and 132 to the inner end surface 64a of the upper left cover 64 and the inner end surface 51a of the upper right cover 51 is also the same for the treatment tool 100. The length is not more than twice the outer diameter of the sheath 101.
[0066]
As described above, there is a gap between the guide portions 131 and 132, the upper left cover 64, and the upper right cover 51. This is because the upper left cover 64 opens and closes in this embodiment. The structure may be such that the cover does not open or close, or the guide portion may be integrated on the cover side to eliminate the gap.
[0067]
Each of the guide portions 131 and 132 is formed in a triangular prism shape as shown in FIG. 16A for the purpose of avoiding interference between the driving roller 31 and the adjustment roller 72. However, interference with the roller or the like occurs. Otherwise, any shape may be used, and for example, a flat plate member may be used as shown in FIG.
In this embodiment, after the treatment instrument 100 is inserted into the channel of the endoscope 1, the inside of the guide portion 131 communicates with the outside in order to remove the endoscope treatment instrument insertion / extraction device 25 from the treatment instrument 100. If the insertion / extraction device 25 is not removed from the treatment instrument, for example, a cylindrical structure as shown in FIG. 16B may be used.
[0068]
Further, the guide portions 131 and 132 may be provided integrally with the forceps plug 11 as shown in FIG. 18A without being provided on the endoscope treatment instrument insertion / extraction device 25 side.
Further, as shown in FIG. 18B, it is also conceivable to extend the end of the insertion opening 10a of the treatment instrument insertion port 10 to the outside and use the extended portion as the guide 131. . However, in this case, except when the treatment tool 100 is used, the forceps plug 11 is attached to the treatment tool insertion port 10 as shown in FIG. When the treatment tool 100 is used, the forceps plug 11 is removed from the endoscope 1, and then the endoscope treatment tool insertion / extraction device 25 is attached to the treatment tool insertion port 10.
[0069]
In the above description, assuming that the grip part 26a is gripped with the right hand, it has been considered that the switches and the like are installed at positions where the finger of the right hand can touch, but for users who grip the grip part 26a with the left hand. In addition, when the grip part 26a is gripped with the left hand, it is needless to say that the respective switches and the like may be provided at a position where the finger of the left hand touches.
[0070]
Further, for example, the variable insertion speed switch can be operated with either the left hand or the right hand when the grip part 26a is gripped with the left hand and the right hand is gripped with the left hand. A switch may be provided at each position where the thumb of the right hand hits when holding the portion 26a.
[0071]
In the present embodiment, the drive switch 96 is provided with a forefinger and the insertion speed variable switch or the like is provided at a position where it can be operated with a thumb. In short, one of the fingers touches the switch when the grip 26a is gripped. There is no need to limit the positions to the above-mentioned positions.
[0072]
Alternatively, in order to prevent an erroneous operation, a switch may be provided at a position where it cannot be touched immediately by just grasping the grip portion 26a, but can be touched by slightly moving a finger.
[0073]
As another example, a drive switch 96 may be provided in the vicinity of the insertion port 91 as shown in FIG.
This is because when the grip portion 26a is slender, the middle of the first and second joints of the index finger hits the drive switch 96 with the arrangement of the drive switch 96 as shown in FIG. The drive switch 96 can be pushed with the thumb.
[0074]
Further, in the example shown in FIG. 19, the drive switch 96 is provided on the longitudinal center axis 138 of the surface 137 on the insertion opening side of the grip portion 26a, and the drive switch 96 can be operated regardless of whether it is grasped with either the left or right hand. It can be done.
[0075]
In the example of FIG. 19, the drive switch 96 is provided in the vicinity of the insertion slot 91, but instead, a switch with another function may be arranged, or a plurality of switches may be arranged. .
[0076]
In the present embodiment, one drive switch 96 is provided, but a plurality of drive switches 96 may be provided. In addition, for example, a switch for inserting the treatment tool and a switch for removing the treatment tool may be provided, or a plurality of switches having different insertion or removal speeds may be prepared. Furthermore, a drive switch and a dial (or switch) for setting the insertion speed may be provided. The insertion speed variable switch is preferably provided at a position where the thumb of the right hand can touch when gripping the grip part 26a with the right hand. Alternatively, one switch may have a plurality of functions.
[0077]
For example, when it is pressed for the first time, it functions as a drive switch, but if you press the switch during operation, it may work as a switch for emergency stop, it can be inserted when pressed once, The switch may be used as a switch having a different function alternately, such as being able to be removed. Alternatively, the first operation may be insertion, the second operation is removal of the treatment tool, and the third operation is extraction.
[0078]
The insertion length setting switch 95 and the drive switch 96 are adhered and fixed to the grip cover 26 so as to be watertight.
However, it is not particularly necessary to fix by adhesion, and it may be configured to keep watertight by interposing an elastic member or the like.
[0079]
Of course, as long as one switch has a plurality of functions, it is not necessary to specifically limit the combination.
Further, a plurality of switches having the plurality of functions may be provided or used in combination with a switch having only one function.
Further, in the above description, the drive switch is a push-type switch and the insertion speed variable switch is a slide-type switch. However, the switch is not particularly limited as long as it has a function as a switch.
[0080]
In addition, a display screen for clearly indicating the current operation status may be provided, or an operation confirmation lamp may be provided.
Further, an indicator for indicating the use position of the switches may be provided on the external parts such as the grip cover 26 and the upper right cover 51.
[0081]
The shape of the grip cover 26 is not particularly required to be a box shape as shown in FIG. 11, and may be any shape as long as it is easy to grip. With respect to the shape of the grip portion 26a, the plane and the orthogonal portion of the plane are formed with a gently curved surface so that it can be easily gripped. For example, it may be matched with the shape of the finger when the grip 26a is gripped (FIG. 21), or a protrusion 141 may be provided on the part touched by the hand to prevent slipping (FIG. 22).
[0082]
In the present embodiment, a mechanism for feeding the treatment instrument 100 such as the drive roller 31 is provided at one end of the grip portion 26a. This is because the treatment instrument 100 comes into contact with the hand holding the apparatus. Therefore, it means that the distance between the hand holding the treatment tool 100 and the grip portion 26a is increased so that the treatment tool 100 is not filthy.
[0083]
Further, a mechanism for delivering the treatment instrument 100 is provided on the thumb side when the grip portion 26a is gripped. As shown in FIG. 23 (a), the insertion port 91 can be easily seen from the operator. It is consideration of. In other words, the insertion port 91 can be easily seen so that the operation of inserting the treatment instrument 100 into the insertion port 91 is facilitated.
[0084]
If the mechanism for feeding is provided on the little finger side as shown in FIG. 23 (b), the insertion port 91 cannot be seen from the operator because the hand is obstructed unless the hand holding is twisted. Thus, the workability is generally worse than when a delivery mechanism is provided on the thumb side.
[0085]
In this embodiment, many of the built-in items of the endoscope treatment instrument insertion / extraction device 25, such as the motor 29, encoder 32, and various gears, are built in the grip portion 26a. Therefore, it is not always necessary to incorporate at least a part of the device in the grip portion 26a.
[0086]
For example, as shown in FIG. 24A, a solid body in which the grip portion 26a is provided so as to protrude from the main body 145 and the inside of the grip portion 26a is completely blocked may be used. Alternatively, as shown in FIG. 24B, the space 146 is formed inside for the purpose of weight reduction, but the space 146 may be provided with a grip portion 26a that does not contain any components. In either case, the built-in component is also built in the main body 145 different from the grip portion 26a. For this reason, the grip portion 26a has a smaller diameter than that of the type shown in FIG.
[0087]
(Function)
First, the insertion length of the treatment instrument 100 is input to a control circuit (not shown) by the insertion length setting switch 95 according to the model of the endoscope 1 to be used. Next, the adjustment dial 81 is adjusted according to the diameter of the sheath 101 of the treatment instrument 100 to be used, and the amount of force with which the adjustment roller 72 is urged by the coil spring 79 is adjusted. After closing the upper left cover 64, the distal end of the treatment instrument 100 is inserted into the insertion port 91 and inserted until the sheath 101 is sandwiched between the drive roller 31 and the adjustment roller 72.
[0088]
At this stage, the connecting arms 85 and 86 are fitted into the treatment instrument insertion port 10 of the endoscope 1, and the flanges 85 a and 86 a of the connecting arms 85 and 86 are engaged with and attached to the connecting groove 12.
When the drive switch 96 is pressed after this mounting, the control circuit receives the signal and rotates the motor 29.
[0089]
The driving force of the motor 29 is transmitted to the driving roller 31 through the gear train. At this time, since the encoder 32 also rotates via the gear train, the pulse signal from the encoder 32 is sent to the control circuit.
[0090]
As a result, the control circuit calculates the rotational speed of the drive roller 31 and rotates the motor 29 until the rotational speed preset by the insertion length setting switch 95 is reached.
With the sheath 101 of the treatment instrument 100 sandwiched between the drive roller 31 and the adjustment roller 72, the drive roller 31 rotates, so that the treatment instrument 100 is guided through the guide portions 131 and 132 while being sent out. 92 is inserted into the forceps channel of the endoscope 1 through the hole 11 a of the forceps plug 11 of the endoscope 1. At this time, the sheath 101 of the treatment instrument 100 does not buckle even if the insertion speed of the treatment instrument 100 is high by the guide portions 131 and 132.
[0091]
When the rotation speed set by the insertion length setting switch 95 is reached, the power supply to the motor 29 is stopped.
If the number of rotations is set correctly, the treatment instrument 100 does not protrude from the distal end opening 9d of the forceps channel of the endoscope 1 to the extent that the body cavity is damaged. Even if the insertion operation of the treatment instrument 100 continues further due to an inertial force, an electrical failure, or a setting error of the insertion length setting switch 95, the stopper 97 hits the edge of the insertion port 91. When 64 is closed, no further insertion amount is inserted.
[0092]
When the button portion 117 of the release button 115 is pushed after the insertion is completed, the protrusion 127 of the cover rod 122 passes through the hole 123 of the release button 115, and thus the cover rod 122 is pushed by the biasing force of the coil spring 126, thereby covering the cover. The upper left cover 64 integrated with the rod 122 is opened.
[0093]
At this time, since the adjustment roller 72 moves integrally with the upper left cover 64, the sheath 101 of the treatment instrument 100 is released from the state of being sandwiched between the adjustment roller 72 and the drive roller 31.
[0094]
Furthermore, since the upper left cover 64 is opened, the outside and the inside of the cover communicate with each other, so that the treatment instrument 100 can be easily removed without being advanced or retracted into the forceps channel.
[0095]
At the same time, since the connecting arm 86 moves integrally with the upper left cover 64, the connection with the connection groove 12 of the endoscope 1 is simultaneously released and is also removed from the endoscope 1.
After use, the mounting screw 55 is removed, the treatment instrument mounting portion 90 is removed from the grip cover 26, and cleaning and disinfection are performed.
[0096]
When the above-described operation is actually performed, the endoscopist operates the endoscope treatment tool insertion / extraction device 25 using the right hand, and the assistant operating the treatment tool (hereinafter referred to as the treatment tool operator). However, there are two types of cases where the endoscope treatment instrument insertion / extraction device 25 is grasped and operated with one hand. Here, the former case which is considered to be easily performed will be described.
[0097]
Since the endoscopist grasps the operation unit 2 of the endoscope 1 with the left hand during the case, only the right hand is free.
Therefore, preparatory work such as adjustment of the grasping pressure of the treatment instrument by the adjustment dial 81 that requires using both hands and closing the upper left cover 64 has already been performed before the case, or the operator of the treatment instrument or the like. Need to perform the operation instead.
[0098]
After the operation is finished, the endoscopic doctor holds the endoscope treatment tool insertion / extraction device 25 in the right hand and the endoscope 1 in the left hand while holding the endoscope 1 in the left hand. The insertion / extraction device 25 is connected. Thereafter, the treatment instrument operator inserts the treatment instrument 100 into the insertion port 91.
[0099]
Alternatively, when the endoscope doctor is still holding the endoscope treatment instrument insertion / extraction device 25 in the right hand and the endoscope treatment instrument insertion / extraction device 25 is not yet connected to the endoscope 1, There is also a method in which the tool operator inserts the treatment tool 100 into the insertion port 91 and then connects the endoscope treatment tool insertion / extraction device 25 to the endoscope 1.
[0100]
In addition, the treatment tool operator sets the treatment tool 100 in the insertion port 91 in advance, and in that state, hands over the endoscope treatment tool insertion / extraction device 25 to the endoscopist. A means of connecting the device to 1 is also conceivable.
[0101]
After connecting the endoscope treatment instrument insertion / extraction device 25 to the endoscope 1, the endoscopist pushes the drive switch 96 to insert the treatment instrument 100.
After the insertion is completed, the endoscopist presses the release button 115 to remove the endoscope treatment tool insertion / extraction device 25 from the treatment tool 100, and the removed device is placed on a table or handed to an assistant. .
[0102]
As described above, according to the present embodiment, the grip portion 26a can be grasped and operated with one hand, so that a doctor or an assistant who operates a treatment instrument can handle the endoscope treatment instrument insertion / extraction device 25. Yes, there is no need to secure personnel for handling the endoscope treatment tool insertion / extraction device.
[0103]
<Second Embodiment>
(Constitution)
As shown in FIG. 24, the endoscope treatment tool insertion / extraction device 150 has a grip portion 151. The grip portion 151 has a rectangular parallelepiped shape, and the grip portion 151 is large enough to be gripped with one hand. The shape of the grip portion 151 does not need to be limited to a rectangular parallelepiped as in the present embodiment. Also good.
[0104]
In addition, as shown in FIG. 25, one end portion 151a of the grip portion 151 is provided with an insertion port 152, and the other end portion 151a is provided with a delivery port 153. The insertion port 152 and the delivery port 153 communicate with each other through a straight insertion hole 155. The inner diameter of the insertion hole 155 is larger than the outer diameter of the sheath 101 of the treatment instrument 100.
A space 178 for accommodating the drive roller 156 and the adjustment roller 157 is formed in the insertion hole 155. The operation mechanisms of the drive roller 156 and the adjustment roller 157 are the same as those in the first embodiment. All of these operating mechanisms are built in the grip portion 151 (not shown).
[0105]
As shown in FIG. 27, the grip 151 is provided with a drive switch 162, an adjustment dial 163, and an insertion length setting switch 164. As shown in FIG. 27, when the grip portion 151 is gripped with the right hand, the drive switch 162 is provided at a position where the index finger hits. The configurations and functions of the adjustment dial 163 and the insertion length setting switch 164 are the same as those in the first embodiment.
[0106]
Further, the drive switch 162 is configured so that the drive roller 156 rotates in the forward direction to insert the treatment instrument in the first operation, and the drive roller 156 reverses to remove the treatment instrument in the second operation. It has become.
[0107]
Connection arms 166 and 167 for connecting to the connection groove 12 of the endoscope 1 are integrally projected at the end of the grip portion 151 to constitute a treatment instrument mounting portion 168 similar to that of the first embodiment. Has been. The configuration of the connection arms 166 and 167 is made of an elastic body as in the case of the connection arm of the first embodiment. Thereby, in a state where the endoscope treatment tool insertion / extraction device 150 is connected to the endoscope 1, the connection is released when the endoscope treatment tool insertion / extraction device 150 is pulled strongly.
[0108]
(Function)
The treatment tool insertion amount is set in the same manner as in the first embodiment. As shown in FIG. 25, the grip 151 is gripped, and the endoscope treatment tool insertion / extraction device 150 is connected to the endoscope 1 by the connecting arms 166 and 167. By operating the drive switch 162, the treatment tool 100 is inserted into the channel of the endoscope 1 by the action of the drive roller 156 and the adjustment roller 157.
[0109]
After completion of the treatment tool insertion, the treatment with the treatment tool 100 is performed in a state where the endoscope treatment tool insertion / extraction device 150 is connected to the endoscope 1.
After the treatment is completed, the drive switch 162 is pressed again to reverse the drive roller 156, and the treatment tool is removed.
[0110]
After removing the treatment tool, the endoscope treatment tool insertion / extraction device 150 is strongly pulled from the endoscope 1 to disconnect the endoscope 1 from the endoscope treatment tool insertion / extraction device 150.
(effect)
According to this embodiment, since the driving roller 156, the adjustment roller 157, and the like are also housed in the grip portion 151, the size can be further reduced as compared with the first embodiment.
[0111]
Next, the treatment tool used for the automatic insertion assisting tool as the endoscope treatment tool insertion / extraction apparatus is not limited to the above-described treatment tool, and is a treatment tool having a structure as shown in FIGS. Forceps) 181 and 182 may be used.
Each of the treatment instruments 181 and 182 has the same basic configuration as the treatment instrument 100 described above, but the treatment instrument 181 and 182 here has a narrow recess 183 (see FIG. 28) or a ridge-shaped convex portion 184 (the one shown in FIG. 29).
[0112]
The recess 183 has a length from the distal treatment section 102 of the treatment instrument 100 from the corresponding opening 9d of the forceps channel of the endoscope 1 to the drive roller 31 of the treatment instrument automatic insertion aid via the forceps opening 10. The outer diameter of the sheath 101 of the treatment tool 100 is made smaller than the treatment tool clamping distance between the drive roller 31 and the adjustment roller 72.
[0113]
The convex portion 184 of the treatment instrument 182 is provided at the same position as the concave portion 183, and the outer diameter of the sheath 101 of the treatment instrument 100 is made larger than the treatment instrument grasping distance between the driving roller 31 and the adjustment roller 72. is there.
[0114]
In any of the treatment tools 181 and 182, the sheath 101 is sandwiched between the drive roller 31 and the adjustment roller 72 and is inserted into the treatment instrument insertion conduit of the endoscope 1.
Here, in the case of the treatment instrument 181, when the distal treatment section 102 protrudes from the forceps channel opening 9 d, the recess 183 reaches the position of the drive roller 31. Then, since the recessed portion 183 is smaller than the holding distance between the driving roller 31 and the adjusting roller 72, the recessed portion 183 is not held between the driving roller 31 and the adjusting roller 72, and the insertion operation of the treatment instrument 100 is stopped.
[0115]
In the case of the treatment instrument 182, the sheath 101 is inserted into the treatment instrument insertion conduit of the endoscope 1, and when the convex portion 184 reaches the position of the drive roller 31, the convex portion 184 becomes the drive roller. Since it is larger than the clamping distance between 31 and the adjustment roller 72, the convex portion 184 is locked by the drive roller 31 and the adjustment roller 72, and the insertion of the treatment instrument 100 is stopped.
[0116]
In any of the treatment tools 181 and 182, when the distal treatment section 102 reaches the forceps channel opening 9 d of the endoscope 1, the insertion of the treatment tools 181 and 182 is mechanically stopped. Therefore, the treatment unit 102 does not protrude into the body cavity more than necessary. Further, the sheath 101 is not forced to buckle.
[0117]
[Appendix]
1. An endoscope treatment instrument insertion / extraction device having a drive mechanism for performing at least either insertion or removal of a treatment instrument with respect to a treatment instrument insertion channel of an endoscope, having a grip portion that can be gripped with one hand. An endoscope treatment tool insertion / extraction device.
[0118]
2. The endoscope treatment instrument insertion / extraction device according to item 1, wherein the grip portion extends in a direction substantially perpendicular to the treatment instrument insertion / extraction direction.
3. The endoscope treatment instrument insertion / extraction apparatus according to claim 1, further comprising an engagement portion that is attachable to and detachable from an opening portion of the channel of the endoscope.
Since it is not necessary to manually press the treatment instrument insertion / extraction device against the opening of the channel of the endoscope, workability is improved.
[0119]
4). The endoscope treatment instrument insertion / extraction device according to claim 1, wherein a space is provided in the grip portion, and a part of the components constituting the device is accommodated in the space.
The apparatus can be reduced in size.
5. The endoscope treatment instrument insertion / extraction device according to item 4, wherein at least one of the components housed in the internal space of the grip portion is a drive source. Since the drive source is generally heavy, storing it inside the grip portion improves the balance of the center of gravity and makes it easier to grip.
[0120]
6). The endoscope treatment instrument insertion / extraction device according to item 4, wherein the driving source is a motor.
The drive source can be downsized.
[0121]
7). The endoscope treatment instrument insertion / extraction apparatus according to claim 1, wherein a portion through which the treatment instrument passes is provided at one end of the grip portion.
Since the treatment instrument passes through a position where the hand holding the grip does not touch, the treatment instrument can be inserted into the channel while being clean.
[0122]
8). Item 7. The endoscope according to item 7, wherein a portion through which the treatment instrument passes is provided at an end portion of the grip portion on a thumb side of a hand gripped when the grip portion is gripped. Treatment tool insertion / extraction device.
If there is a portion through which the treatment tool passes on the thumb side of the grip, this portion can be easily observed with the eyes.
[0123]
9. The endoscope treatment tool insertion / extraction device according to item 1, wherein the endoscope treatment tool is divided into a main body portion and a grip portion.
Since the grip can be made thin, even a person with a small hand can grip it.
[0124]
10. The endoscope treatment instrument insertion / extraction device according to item 1, wherein the grip portion has a shape without a corner portion.
Hands are not damaged when gripped.
[0125]
11. The endoscope treatment tool insertion / extraction device according to item 1, wherein the outer shape of the grip portion has an uneven shape in accordance with the shape of a finger when gripped by a hand.
Even if you use it for a long time, it will not get tired because the grip part will not slip in your hand just by lightly gripping it.
[0126]
12 The endoscope treatment tool insertion / extraction device according to item 1, wherein the grip portion has an anti-slip unevenness on an outer surface thereof.
Since the configuration is simpler than that of the supplementary item 11, the slip prevention can be performed at a lower cost than that of the supplementary item 11.
[0127]
13. The opening for inserting the treatment instrument into the treatment instrument insertion / extraction apparatus in a posture in which the treatment instrument insertion / extraction apparatus is attached to the endoscope by grasping the grip portion is attached to the treatment instrument insertion / extraction apparatus. An endoscopic treatment instrument insertion / extraction device, wherein an opening is made to face an operating person.
When the operator of the treatment instrument insertion / extraction apparatus inserts the treatment instrument into the endoscope treatment instrument insertion / extraction apparatus, it is easy to insert the treatment instrument insertion / extraction apparatus.
[0128]
14 The opening for inserting a treatment instrument into the treatment instrument insertion / extraction device in the state where the grip portion is grasped with a left hand and the treatment instrument insertion / extraction device is attached to an endoscope according to claim 1 is provided. An endoscopic treatment instrument insertion / extraction device, wherein the device is opened with an inclination in a right hand direction of a person who operates the device.
When the operator of the treatment instrument insertion / extraction device grasps the treatment instrument with the right hand and inserts it into the treatment instrument insertion / extraction device, it is easy to insert.
[0129]
15. In addition, the opening for inserting the treatment instrument into the treatment instrument insertion / extraction apparatus operates the treatment instrument insertion / extraction apparatus in a state where the grip portion is gripped with a right hand and attached to the endoscope. An endoscopic treatment instrument insertion / extraction device characterized by being opened in a slanting direction toward the left hand of a person.
When the operator of the treatment instrument insertion / extraction apparatus grasps the treatment instrument with the left hand and inserts it into the treatment instrument insertion / extraction apparatus, it is easy to insert the treatment instrument insertion / extraction apparatus.
[0130]
16. In addition, when the treatment instrument insertion / extraction apparatus is connected to the endoscope, an opening for inserting the treatment instrument into the treatment instrument insertion / extraction apparatus is opened facing the endoscope operator. An endoscopic treatment instrument insertion / extraction device.
When the operator of the endoscope inserts the treatment tool into the treatment tool insertion / extraction device, it is easy to insert.
[0131]
17. In addition, when the treatment instrument insertion / extraction apparatus is connected to an endoscope, the opening for inserting the treatment instrument into the treatment instrument insertion / extraction apparatus is inclined in the right hand direction of the endoscope operator. An endoscope treatment tool insertion / extraction device characterized by being open to the end.
When the operator of the endoscope holds the treatment tool with the right hand and inserts it into the endoscope treatment tool insertion / extraction device, the insertion is easy.
[0132]
18. The endoscope treatment tool insertion / extraction apparatus according to item 1, wherein the direction of the opening for inserting the treatment instrument into the treatment instrument insertion / extraction apparatus is variable.
The operator can set the direction of the opening in the direction that is most convenient for the operator.
[0133]
19. The endoscope treatment instrument insertion / extraction device according to claim 1, further comprising at least one switch for operating the treatment instrument insertion / extraction device on the grip portion.
The switch can be operated while holding the grip.
[0134]
20. The endoscope treatment tool insertion / extraction according to item 19, wherein at least one of the switches is provided at a position where any of the grasping fingers touch when the grip portion is gripped. apparatus.
Since the switch can be operated without shifting the finger position, the operability is improved.
[0135]
21. Item 19. The endoscope treatment instrument insertion / extraction apparatus according to item 19, wherein at least one of the switches is disposed near an opening for inserting the treatment instrument into the treatment instrument insertion / extraction apparatus.
Since the switch can be operated with the thumb of the gripping hand, it is easier to apply force than when operating with other fingers.
[0136]
22. Item 19. In the nineteenth aspect, at least one of the switches is disposed on a longitudinal central axis of a surface provided with an opening for inserting the treatment instrument into the treatment instrument insertion / extraction device. Endoscope treatment tool insertion / extraction device.
[0137]
The switch can be operated in the same manner regardless of whether the left or right hand holds the grip portion.
23. In addition, the insertion amount adjustment switch for adjusting the insertion amount of the treatment instrument is provided, and the insertion amount adjustment switch is provided at a position where any of the fingers holding the grip portion does not hit. An endoscopic treatment instrument insertion / extraction device.
It is possible to prevent the insertion amount setting switch from being changed by accidentally touching the insertion amount setting switch while operating the treatment instrument insertion / extraction device.
[0138]
24. In item 19, the left thumb thumb touches the grip when the grip is gripped with a left hand and the right thumb touches the grip when the grip is gripped with a right hand. An endoscopic treatment instrument insertion / extraction apparatus, characterized in that a switch having the same function is provided.
The switch can be operated easily with either the left or right hand.
[0139]
25. The endoscope treatment instrument insertion / extraction device according to item 1, wherein a portion through which the treatment instrument passes is provided inside the grip portion.
Since all the mechanisms are housed inside the grip, it is possible to reduce the size.
[0140]
26. An endoscope treatment tool insertion / extraction device having a drive mechanism for inserting / removing a treatment tool to / from an endoscope channel, and having a guide portion for guiding the treatment tool from the treatment tool insertion / extraction device into the endoscope channel. A treatment instrument insertion / extraction apparatus for an endoscope, wherein a gap between an end of the guide portion on the drive mechanism side and the surface of the drive mechanism is smaller than twice the outer diameter of the treatment instrument.
Even if the treatment instrument inserted by the drive mechanism is inserted at a sufficiently high insertion speed, the sheath portion of the treatment instrument does not buckle. It is inserted into the channel of the endoscope without buckling through the guide portion.
[0141]
27. Item 26. In the item 26, the drive mechanism is composed of a plurality of drive rollers that sandwich a treatment instrument, and the drive mechanism side end portion of the guide portion has a tapered shape that does not interfere with the drive roller. An endoscopic treatment instrument insertion / extraction device.
The gap between the end of the guide portion on the drive mechanism side and the drive mechanism surface can also be made sufficiently small by the mechanism for inserting the treatment instrument with the drive roller.
[0142]
28. Item 26. The endoscope treatment instrument insertion / extraction device according to Item 26, wherein the guide portion is formed by a forceps plug.
Since it is not necessary to provide a guide part inside the endoscope treatment instrument insertion / extraction apparatus, the apparatus can be miniaturized.
[0143]
29. Item 26. The endoscope treatment instrument insertion / extraction device according to Item 26, wherein the guide portion and the channel of the endoscope are integrated.
Compared to item 28, it is not necessary to provide a forceps plug having a complicated shape, which leads to cost reduction.
[0144]
【The invention's effect】
According to the present invention, since the grip portion can be grasped with one hand, a doctor or a caregiver who operates the treatment instrument can handle the endoscope treatment instrument insertion / extraction device without assistance. There is no need to secure other personnel to handle the device.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view of an endoscope treatment tool insertion / extraction apparatus according to a first embodiment.
FIG. 2 is an explanatory diagram showing a system configuration of the endoscope apparatus.
FIG. 3 is a perspective view of an endoscope treatment tool.
FIG. 4 is a cross-sectional view of a holding force adjusting unit of the endoscope treatment tool insertion / extraction device.
FIG. 5 is a schematic perspective view of an upper right cover of the endoscope treatment tool insertion / extraction device.
FIG. 6 is a cross-sectional view of an assembled state of an upper right cover and a left upper cover of the endoscope treatment tool insertion / extraction device.
FIG. 7 is a schematic perspective view of a left upper cover of the endoscope treatment tool insertion / extraction device.
FIG. 8 is a perspective view of a portion of means for attaching the treatment instrument insertion / extraction device to an endoscope.
FIG. 9 is a perspective view of a portion of another means for mounting the treatment instrument insertion / extraction device on an endoscope.
FIG. 10 is a perspective view of a portion of still another means for mounting the treatment instrument insertion / extraction device on an endoscope.
FIG. 11 is a perspective view of the endoscope treatment tool insertion / extraction apparatus as a whole.
FIG. 12 is an explanatory diagram of a treatment tool stopper.
FIG. 13 is a cross-sectional view of the treatment instrument stopper.
FIG. 14 is a cross-sectional view of the lock mechanism portion of the upper left cover of the endoscope treatment tool insertion / extraction device.
FIG. 15 is a cross-sectional view showing a modification of the delivery port of the endoscope treatment tool insertion / extraction device.
FIG. 16 is a perspective view of a guide portion that guides the sheath of the treatment instrument of the endoscope treatment instrument insertion / extraction apparatus.
FIG. 17 is an explanatory view showing a state where the sheath of the treatment instrument is buckled.
FIG. 18 is a cross-sectional view showing another modified example of the guide portion that guides the treatment instrument sheath of the endoscope treatment instrument insertion / extraction apparatus.
FIG. 19 is a perspective view of a treatment instrument insertion / extraction apparatus according to an example in which the arrangement of switches is changed.
FIG. 20 is an explanatory diagram showing a state of operation when a drive switch is provided on the index finger side.
FIG. 21 is a perspective view showing a modification of the grip portion of the endoscope treatment tool insertion / extraction device.
FIG. 22 is a perspective view showing another modification of the grip portion of the endoscope treatment tool insertion / extraction device.
FIG. 23 is an explanatory view of a difference between the thumb side or the little finger side of the endoscope that holds the grip portion of the endoscope treatment tool insertion / extraction device.
FIG. 24 is a side view showing still another modified example of the grip portion of the endoscope treatment tool insertion / extraction device.
FIG. 25 is an external view of an endoscope treatment tool insertion / extraction apparatus according to a second embodiment.
FIG. 26 is a cross-sectional view of the endoscope treatment tool insertion / extraction device according to the second embodiment.
FIG. 27 is an explanatory view of use in which the endoscope treatment instrument insertion / extraction apparatus is gripped.
FIG. 28 is a perspective view of another example of an endoscope treatment tool.
FIG. 29 is a perspective view of another example of an endoscope treatment tool.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Endoscope, 2 ... Operation part, 10 ... Treatment tool insertion port part, 25 ... Endoscope treatment tool insertion / extraction apparatus, 26 ... Grip cover, 31 ... Treatment tool insertion / extraction drive roller, 51 ... Upper right part cover, 64 ... upper left cover, 72 ... adjustment roller, 100 ... treatment tool.

Claims (1)

A driving roller that engages with a sheath portion that constitutes the treatment instrument and returns the treatment instrument;
A drive mechanism for rotationally driving the drive roller;
The drive mechanism is accommodated, the drive roller is disposed on the upper surface thereof, and a grip cover portion provided with a grip portion on the side surface thereof is provided so that the drive roller is not accommodated in the grip cover portion. An endoscopic treatment instrument insertion / extraction device.

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