JPH0529694Y2 - - Google Patents

Description

[Detailed description of the invention] [Industrial application field] The present invention is an endoscope that is inserted into a treatment instrument insertion channel of an endoscope and used to remove polyps and collect stones in body cavities. This relates to a mirror treatment tool.

[Prior Art] An endoscope is inserted into a patient's body cavity for examination and
This endoscope is used for diagnosis, and various treatment tools are inserted through it so that necessary treatments can be performed. For example, basket retrieval forceps are used to retrieve stones in the body.
It is constructed by inserting a manipulation wire into a flexible sheath and attaching a treatment instrument main body for grasping a stone to the tip of the manipulation wire. By bundling the tips of the four bent elastic filaments, it is possible to expand them into a basket shape.

The main body of the treatment tool can be moved in and out from the tip of the sheath, and when the main body of the treatment tool is protruded from the sheath, the elastic filaments that make up the main body expand so that they can grasp stones, etc. become,
Further, when the treatment instrument main body is drawn into the sheath, the elastic filament is housed in the sheath in a state in which the elastic filament is deformed into a substantially straight state.
In order to operate the treatment tool main body in and out, a push/pull operation section is connected to the proximal end of the operating wire, and the push/pull operation section is connected to the treatment instrument provided in the main body operation section of the endoscope. The treatment instrument main body is positioned outside the introduction section, and by operating this push/pull operation section, the treatment instrument main body is made to protrude and retract from the sheath.

[Problems to be solved by the invention] When the above-mentioned treatment instrument is used in a side-viewing endoscope, the treatment instrument is inserted in the insertion channel in the axial direction of the insertion section. let me,
In order to project the treatment instrument from the treatment instrument lead-out portion provided on the side of the distal end of the insertion portion, it is necessary to change the direction of the treatment instrument in a direction substantially perpendicular to this axis. For this purpose, a treatment instrument elevator is provided at the tip of the insertion section to change the direction of the treatment instrument, and by raising the treatment instrument elevator, the treatment instrument can be moved laterally. I'm trying to guide you.

By the way, when the push-pull operation section is operated to push the operating wire, the operating force of the operating wire is smoothly transmitted to the treatment instrument main body, and the treatment instrument main body can be reliably pushed out of the sheath. You have to be able to do it. For this reason, the operating wire needs to have some degree of stiffness. However, if the operating wire is given a stiffness in this way, it becomes rigid, and when the direction of the treatment instrument is changed by the above-mentioned raising operation, the rigidity of the operating wire becomes a large resistance, causing the treatment to be difficult. There is a drawback that the operability of the raising operation of the tool raising table becomes poor.

In order to avoid such drawbacks, it is known that the treatment instrument main body extends toward the proximal end from the part that is bent by the lifting operation of the treatment instrument raising table. If the elastic filaments constituting the main body are made long, the curvature of the elastic filaments during expansion cannot be increased, which not only makes it impossible to grasp large objects, but also makes it difficult to cover the treatment instrument body with a sheath. If the protruding lengths of the elastic filaments are uneven in the state in which they protrude from the treatment instrument, there is a problem in that it becomes impossible to smoothly grasp the treatment instrument.

The present invention has been made in view of the above points, and its purpose is to provide an endoscopic treatment instrument with good operability.

[Means for Solving the Problems] In order to achieve the above-mentioned object, the present invention makes the operating wire have a difference in flexibility in its axial direction,
A feature of this device is that the portion from the portion connected to the treatment instrument main body to the portion to be lifted is a highly flexible wire portion having higher flexibility than other portions.

[Function] By configuring as described above, the elastic filament constituting the treatment instrument body can be bent at a desired curvature from its root portion, that is, from the continuous portion of the operating wire. Therefore, the distance between the opposing elastic filaments can be increased, and they can be expanded in a symmetrical state, so operations such as grasping the stone with the treatment instrument body can be performed smoothly. be able to do it. Furthermore, since the portion of the operation wire where the lifting operation is performed by the treatment instrument lifting table has high flexibility, the lifting operation can be performed smoothly with a light load.

[Example] Hereinafter, an example of the present invention will be described in detail based on the drawings.

In this embodiment, a basket retrieval forceps is shown as a treatment instrument, but it is not limited to this basket retrieval forceps, but can be used with other instruments such as a high frequency snare, as long as it has a treatment instrument main body having a plurality of bent elastic filaments. It can also be configured as a treatment tool.

FIG. 1 shows the overall structure of the basket retrieval forceps. In the figure, 1 is a sheath made of a flexible tube, 2 is an operating wire, and 3 is a treatment instrument main body, and these operating wire 2 and treatment instrument main body 3 are inserted into the sheath 1. As is clear from FIG.
Four bent elastic filaments 4 provided out of phase
Each elastic wire 4 is formed by connecting curved curved portions 4b and 4c on both sides of a substantially linear center line portion 4a. The strip 4 is formed so that its center line portion 4a is shaped like a protruding mountain. The ends of the curved portions 4b of these four elastic filaments 4 are connected to the locking tool 5.
is bound by. On the other hand, as shown in FIG.
The bundled portion 7 is formed by bundling them together and fixing them by means such as welding or soldering. Thereby, when each elastic filament 4 is expanded, stones and the like can be accommodated inside.

The elastic filament 4 constituting the treatment instrument main body 3 is provided with an extension portion 4d extending from the binding portion 7. Here, this extension part 4d becomes a highly flexible wire part 2a that constitutes a part of the operation wire 2, and the extension part 4d does not necessarily need to be formed in all elastic filaments. The extension portion 4d may be formed in only one to three of these, for example, three elastic filaments 4 as shown in FIG. It becomes softer. Therefore, this highly flexible wire portion 2
When used in a side-viewing endoscope, a has a length that covers at least a portion that is curved during a raising operation of a treatment instrument raising table, which will be described later.
A low flexibility wire section 2b is connected to the high flexibility wire section 2a via a connecting fitting 8.

Thus, the operating wire 2 with the treatment instrument main body 3 connected thereto
is inserted into the sheath 1, and the low flexibility wire portion 2b of the operating wire 2 extends into the pipe 9 connected to the proximal end of the sheath 1.
It is fixed to a slider 10 installed inside the pipe 9. A slider 11 is fitted into the pipe 9, and an engaging member 12 is attached to the slider 11, and the engaging member 12 slides through a long groove 13 formed in the axial direction of the pipe 9. It is connected to child 10. These constitute a push/pull operation section, and are configured such that by moving the slider 11 along the pipe 9, the treatment instrument main body 3 can be moved in and out of the sheath 1.

As a result, at all times, the treatment instrument main body 3
is in a stored state drawn into the sheath 1, and when the slider 11 is pushed in, this pushing force is transmitted to the treatment instrument main body 3, so that it can be projected from the distal end of the sheath 1. It's summery. Furthermore, when the treatment instrument main body 3 protrudes from the sheath 1 in this manner, the elastic filaments 4 constituting it are in an expanded state.

The basket retrieval forceps as a treatment instrument is constructed as described above, and the basket retrieval forceps is in a stored state with the treatment instrument main body 3 pulled into the sheath 1, as shown in FIG. , is adapted to be inserted into a treatment instrument insertion channel 21 formed in an insertion section 20 of the endoscope. As is clear from the figure, the treatment instrument deriving section 22
In the case of a side-viewing endoscope in which the insertion part 20 is formed on the side of the rigid distal end part 20a, the basket retrieval forceps inserted through the treatment instrument insertion channel 21 formed in the axial direction of the insertion part 20. The direction must be changed so that it faces toward the treatment instrument lead-out portion 22. For this purpose, a treatment instrument raising stand 23 is attached to the rigid tip portion 20a, and by raising the treatment instrument raising stand 23, the distal end portion of the basket retrieval forceps is bent at a desired angle. It's becoming like that.

When the tip of the basket retrieving forceps is made to look through the treatment instrument lead-out section 22 in this way, the tip must be made highly flexible, but the operating wire 2 has a high height in this portion. Since the flexible wire portion 2a is formed, the raising operation using the treatment instrument raising table 23 can be performed smoothly with a light load. Moreover, since the operating wire 2 is connected to the low-flexibility wire portion 2b by the connecting fitting 8 at a position on the proximal side of the portion bent by this lifting operation, the push/pull operating portion can be easily controlled. When the operating wire 2 is pushed in by operating the slider 11, this pushing force can be reliably transmitted to the treatment instrument main body 3, and the treatment instrument main body 3 is pushed into the sheath 1.
By protruding from the tip of the elastic filament 4, the elastic filament 4 constituting the elastic filament 4 can be expanded.

When the treatment instrument main body 3 is expanded in this way, a stone or the like is accommodated therein, and the operating wire 2 is pulled in, the treatment instrument main body 3 contracts as shown in FIG. The elastic filament 4 comes into contact with the stored object and wraps it so that it can be collected.

In order to improve the above-mentioned ability to grasp stones, etc., it is necessary to increase the spread of the treatment instrument main body 3 in the expanded state.
Since the binding portion 7 is provided at the base of the curved portion 4c, the curved portion 4c can be processed to be curved with a large curvature, and when the treatment instrument main body 3 is expanded, The spread of the elastic filaments 4 can be increased. In addition, the binding part 7
The length of the elastic filament 4 that constitutes the treatment instrument main body 3 can be strictly controlled, and the entire length can be made to protrude from the distal end of the sheath 1. Each of the elastic filaments 4 constituting the structure 3 can be expanded in a symmetrical manner, making it possible to smoothly accommodate stones and the like. Furthermore, this binding part 7 is simply bound by the binding wire 6,
Since it is only necessary to fix it, the diameter and length of the binding part 7 can be reduced, and the treatment instrument main body 3 can be smoothly moved in and out while being raised by the treatment instrument raising table 23. It does not interfere with operation.

In the embodiment described above, the highly flexible wire portion 2a constituting the operating wire is connected to the treatment instrument main body 3.
Although the structure is shown in which all or a part of the elastic filaments are extended, if the structure is configured in this way, the structure of the treatment instrument can be simplified,
Although it is preferable because it is easy to manufacture, this highly flexible wire portion 2a constitutes only a part of the operating wire 2, and is not the same as the treatment instrument main body 3, which has the function of grasping and recovering stones, etc. They have different functions, and it is sufficient that they have higher flexibility than the low-flexibility wire section 2b that is connected to the high-flexibility wire section 2a, that is, they have a more flexible structure. Needless to say, it does not have to be made of the same material as the treatment instrument main body 3, but can be made of a separate material.

[Effects of the invention] As detailed above, the present invention is such that the part between the part where the operation wire is connected to the treatment instrument main body and the part to which the lifting operation is performed is formed of a highly flexible wire part. Therefore, the operation of raising the treatment instrument can be performed smoothly with a light load, and the curvature of the elastic filament forming the treatment instrument main body can be designed as desired.
It is possible to improve the ability to grasp stones, etc., and it is also possible to expand each elastic filament in a symmetrical state, resulting in various effects such as improved operability.

[Brief explanation of drawings]

The drawings show one embodiment of the present invention, and FIG. 1 is a sectional view showing the overall configuration of the treatment instrument, and FIG.
The right side view of the figure, FIG. 3 is an enlarged cross-sectional view of the connection portion between the treatment instrument main body and the operating wire, and FIGS. 4 and 5 are action explanatory views. DESCRIPTION OF SYMBOLS 1...Sheath, 2...Operation wire, 2a...Highly flexible wire part, 2b...Low flexibility wire part, 3
. . . Treatment instrument main body, 4 .

Claims (1)

[Scope of utility model registration request] The treatment instrument includes a flexible sheath, an operation wire inserted into the sheath, and a treatment instrument main body that is formed by connecting a plurality of bent elastic filaments at the tip of the operation wire and that can be retracted from the sheath. The device is inserted into a treatment instrument insertion channel of an endoscope to perform a predetermined treatment, and the operation wire is made to have a difference in flexibility in its axial direction, and the treatment instrument main body is 1. A treatment instrument for an endoscope, characterized in that a part connected to the endoscope and a part to be lifted up is made of a highly flexible wire part having higher flexibility than other parts.