JP2015157060A - Overtube for endoscope - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an overtube for an endoscope.SOLUTION: The overtube for an endoscope includes an inner tube with an endoscope inserted thereinto, a shape support body for surrounding the inner tube to maintain a shape, an outer tube inserted into the circumference of the shape support body, a pass tube provided between the inner tube and the outer tube, and an adjustment wire inserted into the pass tube in a movable manner to be connected to ends of the inner tube and the outer tube to adjust a bending degree of a first part in an overtube for an endoscope including the first part 101 whose end bends and a second part 102 which bends smaller than the first part 101, the strength of the first part of the shape support body being formed weaker than the strength of the second part of the shape support body. Since the end part of the overtube with a camera part of the endoscope exposing is formed weaker in strength than the other parts, the other parts can be prevented from being bent when the end part of the overtube is bent.

Description

  The present invention relates to an endoscope overtube. More specifically, the present invention relates to an endoscope capable of directly viewing internal organs or body cavities, while guiding the end of the endoscope inside the human body. The present invention relates to an endoscope overtube that can be bent according to bending.

  In general, an endoscope is a device that can observe the internal organs or body cavities using a small camera and confirm the presence / absence of an abnormality without using a laparotomy or incision of the body like surgery or autopsy.

  Such an endoscope is normally used by being inserted into an overtube so that it can be bent according to the internal bending of the human body. The overtube is manufactured to have flexibility, but the flexibility is limited. That is, the existing overtube is manufactured so that the user can naturally bend it according to the bending inside the human body, rather than adjusting the bending. Therefore, conventionally, even if the endoscope is inserted into the human body using the overtube, the overtube cannot be bent as intended by the user, and a camera provided at the end of the endoscope is desired by the user. There was a problem that could not be switched to the direction.

  In order to solve such a problem, an overtube for bending the distal end of the endoscope is disclosed in US Pat. No. 8,838,587 (March 19, 2013: Patent Document 1).

  In Patent Document 1 disclosed, the proximal end and the distal end of the overtube are set as a flexible region, and a space between them is set as a non-flexible region. A slit is formed to divide the inflexible region into a number of strips.

  The conventional overtube as described above is provided with flexible regions at both ends of the non-flexible region, and the flexible regions are configured to bend in directions opposite to each other. When bending one flexible region in which the end portion of the substrate is bent, there is a problem that unnecessary bending occurs in which the opposite flexible region bends in the opposite direction.

  In addition, since the flexible region is configured to be bent by the elongated hole-shaped opening, it is difficult to adjust the bent shape, and there is a problem that cracks are generated in the opening during repeated use.

US Patent Registration Number US8398587 (March 19, 2013)

  Therefore, the present invention has been made to solve the above-described problem, and the overtube is composed of a plurality of layers, and the strengths of the flexible region and the non-flexible region are made different from each other. Thus, an object of the present invention is to provide an overtube for an endoscope in which unnecessary bending does not occur when the flexible region is bent.

  It is another object of the present invention to provide an overtube for an endoscope in which the bending form of the flexible region can be freely adjusted by subdividing the strength of the flexible region.

  To achieve the above object, the present invention provides an endoscope overtube including a first portion whose end is bent and a second portion that extends to the first portion and bends smaller than the first portion. Provided between the inner tube into which the endoscope is inserted, the shape support for surrounding the inner tube and maintaining the shape, the outer tube inserted into the outer periphery of the shape support, and the inner tube and the outer tube Including a pass tube and an adjustment wire that is movably inserted into the pass tube, is connected to the ends of the inner tube and the outer tube, and adjusts the degree of bending of the first portion. The strength is formed to be weaker than the strength of the second portion of the shape support.

  In the shape support, the wire is preferably formed in a spiral coil shape or a net shape.

  The shape support is preferably formed so that the diameter of the wire is smaller than the diameter of the adjusting wire.

  The shape support is preferably formed such that the wire diameter of the first portion is smaller than the wire diameter of the second portion.

  The shape support is preferably formed so that the wire pitch of the first portion is larger than the wire pitch of the second portion when the wire is coiled.

  The shape support is preferably formed such that the mesh of the first portion is larger than the mesh of the second portion when the wire has a net shape.

  The shape support is composed of at least one wire, but it is preferable that the first portion of the wire is composed of a single wire and the second portion of the wire is composed of two or more wires.

  In addition, the first portion may further include a fixing ring for connecting the bending adjustment wire.

  Further, according to the present invention, an endoscope is inserted in an endoscope overtube including a first portion whose end portion is bent and a second portion that extends to the first portion and bends smaller than the first portion. An inner tube, a shape support for surrounding the inner tube and maintaining the shape, an outer tube inserted into the outer periphery of the shape support, a pass tube provided between the inner tube and the outer tube, and a pass tube And an adjustment wire for adjusting the degree of bending of the flexible portion, and is connected to the ends of the inner tube and the outer tube, and includes a first portion and a second portion of the outer tube and the inner tube. However, the first portion is formed with a lower strength than the second portion.

  Further, according to the present invention, an endoscope is inserted in an endoscope overtube including a first portion whose end is bent and a second portion that extends to the first portion and bends smaller than the first portion. An inner tube, a shape support for surrounding the inner tube and maintaining the shape, an outer tube inserted into the outer periphery of the shape support, a pass tube provided between the inner tube and the outer tube, and a pass tube And an adjustment wire for adjusting the degree of bending of the flexible portion, and is connected to the ends of the inner tube and the outer tube, and includes a first portion and a second portion of the outer tube and the inner tube. However, the first portion and the second portion of the shape support are made of different materials, but the strength of the first portion is weaker than the strength of the second portion.

  In addition, the first portion includes an end 1-1 portion, a 1-2 portion provided with a fixing ring, a 1-3 portion separated from the fixing ring and bent, and a second portion. The first and fourth portions are connected and begin to bend, but the strength of the first and first portions is smaller than that of the first and second portions. And

  According to the present invention, since the end portion of the overtube that is exposed in the camera portion of the endoscope is formed with a lower strength than the remaining portion, the remaining portion is bent when the end portion of the overtube is bent. Can be prevented.

  Further, the bending of the overtube can be finely adjusted by dividing the end portion of the overtube to be bent with different strengths.

It is a perspective view showing an overtube for endoscopes concerning one embodiment of the present invention. It is sectional drawing which shows the overtube for endoscopes of FIG. It is a side view which subdivides and shows the 1st part in the overtube of FIG. It is a figure which shows the form of the shape support body of a 1st part and a 2nd part in the overtube of FIG. It is a figure which shows the other form of the shape support body of a 1st part and a 2nd part in the overtube of FIG.

  Specific embodiments for carrying out the present invention will be described with reference to the accompanying drawings. In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for the sake of clarity and convenience. Moreover, the term mentioned later is a term defined in consideration of the function in this invention, and this may differ with a user, an operator's intention, or a custom. Therefore, the definition of such terms must be made based on the contents throughout this specification.

  1 is a perspective view showing an endoscope overtube according to an embodiment of the present invention, FIG. 2 is a cross-sectional view showing the endoscope overtube of FIG. 1, and FIG. It is a side view which subdivides and shows the 1st part in one overtube. 4 is a diagram showing the shape of the shape support of the first part and the second part in the overtube of FIG. 1, and FIG. 5 is the shape support of the first part and the second part in the overtube of FIG. It is a figure which shows the other form of.

  As shown in the figure, an endoscope overtube 100 according to an embodiment of the present invention is for inserting and using an endoscope. The first end portion of the endoscope is bent and positioned. Includes a portion 101 and a second portion 102 that extends to the first portion 101 and bends smaller than the first portion 101, but includes an inner tube 110, a shape support 120, an outer tube 130, a pass tube 140, and a bend The adjustment wire 150 is largely configured.

  First, the first portion 101 is a portion that points to one end portion of the overtube 100 in which one end portion of the endoscope with the camera is inserted in the overtube 100 into which the endoscope is inserted. That is, the 1st part 101 points out the part bent in the overtube 100 so that the one end part of an endoscope can be bent.

  The second portion 102 is a portion that extends to the first portion 101 and is a portion excluding one end portion of the overtube 100. The second portion 102 is formed of a material stronger than the first portion 101 so as to bend smaller than the first portion 101. The

  Here, the second portion 102 is formed of a material stronger than the first portion 101 and is bent to be smaller than the first portion 101, but is formed of a material stronger than the second portion 102, The third portion 103 configured so as not to be bent from the portion 102 can also be configured. That is, the third portion is formed on the opposite side of the first portion 101, is formed of a material stronger than the second portion 102, and constitutes a bending adjustment instrument 160 described later for adjusting the bending of the first portion 101. Can be used as part.

  The inner tube 110 is a portion into which the endoscope is inserted, and since the endoscope comes into contact with the inner tube 110, the inner tube 110 is formed of a material having good lubricity for reducing friction.

  In the inner tube 110, the end portion where the endoscope camera is located corresponds to the first portion 101, and the portion extending to the end portion corresponds to the second portion 102, and the strength of the first portion 101 is the first. It is formed weaker than the strength of the two portions 102.

  The shape support body 120 is configured to surround the outer peripheral surface of the inner tube 110, and serves as a framework for maintaining the shape of the overtube 100. The shape support body 120 is configured such that the wire has a spiral coil shape and surrounds the outer peripheral surface of the inner tube 110 or has a net shape and surrounds the outer peripheral surface of the inner tube 110. Here, the wire constituting the shape support 120 is formed with a diameter smaller than the diameter of the bending adjustment wire 150 described later.

  The shape support 120 is formed so that the wire diameter of the first portion 101 corresponding to the end of the overtube 100 where the endoscope camera is located is smaller than the wire diameter of the second portion 102. That is, the shape support 120 is formed such that the strength of the first portion 101 is weaker than the strength of the second portion 102 so that the first portion 101 where the endoscope camera is located is more easily bent than the second portion 102. It is.

Shaped support 120, when the wire is formed into a coil shape, as bending of the first portion 101 is better than the second portion 102, the wire pitch _{P 2} of the first portion 101 of the second portion 102 wire pitch it can be constructed by larger than P _1.

The shape support 120 is configured such that when the wire is formed in a net shape, the mesh M ₂ of the first portion 101 is meshed with the mesh M _{1 of} the second portion 102 so that the bending of the first portion 101 is better than the second portion 102. A larger size can be formed.

  The shape support body 120 is configured by making the wire material of the first portion 101 different from the wire material of the second portion 102, but the wire of the first portion 101 may be formed of a material softer than the wire of the second portion 102. it can.

  The shape support body 120 can be formed by forming a single wire or braiding two or more wires. That is, the shape support body 120 is composed of a single wire of the first portion 101 and is composed of two or more wires of the second portion 102, thereby increasing the strength of the first portion 101 to the strength of the second portion 102. It can also be made smaller.

  The outer tube 130 is a portion that constitutes the outermost layer and touches human tissue, and is configured to surround the shape support body 120 outside the inner tube 110. Here, similarly to the inner tube 110, the outer tube 130 is made of a material softer than that of the second portion 102 and the strength of the first portion 101 is weaker than that of the second portion 102. Can be configured.

  As shown in FIG. 2, the pass tube 140 may be provided between the inner tube 110 and the outer tube 130, or may be integrally formed in the inner tube 110 or the outer tube 130. The pass tubes 140 are configured as a pair, and are provided at positions facing each other, that is, spaced apart at an interval of 180 degrees.

  The pass tube 140 is formed with an inner diameter larger than the outer diameter of the bending adjustment wire 150 so that the bending adjustment wire 150 for bending the end of the overtube 100 into which the endoscope is inserted is inserted and can be reciprocated. The

  The bending adjustment wire 150 is inserted into the pass tube 140 and is used to bend the end of the overtube 100 while reciprocating. One end of the bending adjustment wire 150 is connected to the end of the inner tube 110 or the outer tube 130. The end of the outer tube 130 is connected to the bending adjustment device 160 provided at the end of the second portion or the third portion of the outer tube 130.

  This bend adjusting wire 150 can be formed by braiding a single wire or two or more wires. The bend adjusting wire 150 may be configured to cover the surface with a polyurethane coating layer so that friction with the pass tube 140 can be minimized when the bend adjusting wire 150 is pulled or released.

  In the first part 101, one end of the bending adjustment wire 150 is connected between the end of the outer tube 130 and the end of the inner tube 110, and a fixing ring for fixing to the outer tube 130 and the inner tube 110. 170 is provided.

  The bending adjustment instrument 160 is connected to the other end of the wire and is provided outside the outer tube 130 so that the user can operate it. The bending adjustment instrument 160 is configured to pull one of a pair of bending adjustment wires 150 when operated by a user.

  Further, the inner tube 110 and the outer tube 130 can form the first portion 101 where the endoscope camera is located with a flexible material such as PU (Polyurethane), silicone or the like. Further, the second portion 102 of the inner tube 110 and the outer tube 130 can be formed of PE (Poly Ethylene), PP (Poly Propylene), or the like, which is a harder material than the first portion 101.

  That is, the endoscope overtube according to the embodiment of the present invention is used with the material of the first portion 101 and the material of the second portion 102 of the inner tube 110 and the outer tube 130 being different from each other. By using a material whose strength of the second portion 102 is greater than that of the material 101, the strength of the first portion 101 and the second portion 102 can be made different.

  In addition, the endoscope overtube according to the embodiment of the present invention is formed by making the material of the first portion 101 and the material of the second portion 102 of the inner tube 110 and the outer tube 130 different from each other. By forming the first portion 101 and the second portion 102 in different materials, the strength of the first portion 101 can be made weaker than the strength of the second portion 102.

  On the other hand, the first portion 101 of the overtube 100 is further subdivided, a first portion 101a corresponding to an end portion where the camera of the endoscope is exposed, and a first portion 1-2b provided with a fixing ring 170. 1st portion 101c that is bent away from fixing ring 170, and 1st-4 portion 101d that is connected to the second portion and begins to bend. The strength of the −3 portion 101c is configured to be smaller than the strength of the first and second portions 101b and 101d.

  Here, the strength of the 1-1 portion 101a and the 1-3 portion 101c can be configured to be the same or different from each other, but the strength of the 1-1 portion 101a and the 1-3 portion 101c can be different. When configuring with different strengths, it is preferable to configure the strength of the first-third portion 101c, which is largely bent, to be weaker than the strength of the first-first portion 101a.

  The strength of the first-second portion 101b and the first-fourth portion 101d can be the same or different, but the strength of the first-second portion 101b, which is the portion into which the fixing ring is inserted. Can be made larger than the strength of the first to fourth portions 101d.

  In the first portion 101, when the strength of the 1-1 portion 101a and the 1-3 portion 101c and the strength of the 1-2 portion 101b and the 1-4 portion 101d are different from each other, the inner tube 110 and the outer portion The material of the tube 130 can be subdivided and varied, and the shape support of the subdivided first portion 101 is performed after the first portion 101 of the shape support 120 is subdivided as in the embodiment of the present invention. An example in which the body 120 is configured with different strengths will be described.

  In the shape support body 120 of the overtube 100, the wire diameters of the first-second portion 101b and the first-fourth portion 101d are made larger than the wire diameters of the first-first portion 101a and the first-third portion 101c, or first The number of wires of the -2 portion 101b and the first to fourth portion 101d can be configured to be larger than the number of wires of the first to first portion 101a and the first to third portion 101c.

  Further, when the wire constituting the shape support body 120 is a coil shape, the wire pitch of the first-second portion 101b and the first-fourth portion 101d is greater than the wire pitch of the first-first portion 101a and the first-third portion 101c. The strength of the first-second portion 101b and the first-fourth portion 101d can be made stronger than that of the first-first portion 101a and the first-third portion 101c.

  And when the wire which comprises the shape support body 120 is net shape, the wire mesh of the 1-2 part 101b and the 1-4 part 101d is compared with the wire mesh of the 1-1 part 101a and the 1-3 part 101c. The strength of the first-second portion 101b and the first-fourth portion 101d can be made stronger than that of the first-first portion 101a and the first-third portion 101c.

  A manufacturing process for the endoscope overtube according to the embodiment of the present invention having the above-described configuration will be briefly described.

  First, the inner tube 110 is formed by injection molding. Here, when the first part 101 and the second part 102 of the inner tube 110 are injection-molded with different materials, the first part 101 of the inner tube 110 is first injection-molded and then the first part 101 is made of gold. The mold is put into a mold, and the second portion 102 is integrated by injection molding.

  Then, the shape support body 120 is formed by surrounding the outer peripheral surface of the inner tube 110 with a coil-shaped wire or a net-shaped wire. Here, since the strength of the first portion 101 and the strength of the second portion 102 of the shape support 120 are configured to be different from each other, either the first portion 101 or the second portion 102 of the shape support 120 is selected. After forming one part first, the remaining part is formed.

  Here, the pass tube 140 is manufactured separately and fixed to the inner tube 110 before the shape support body 120 is formed on the inner tube 110 formed with the shape support body 120, or the configuration of the shape support body 120. The formed inner tube 110 can be formed by injection molding.

  Thereafter, the inner tube 110 in which the shape support body 120 and the pass tube 140 are configured is inserted into an outer tube molding die, and the outer tube 130 is molded by injection molding.

  If the first portion 101 and the second portion 102 of the outer tube 130 are made of different materials, the second portion 102 is formed after the first portion 101 of the outer tube 130 is first injection-molded.

  When the outer tube 130 is completely formed, the bending adjustment device 160 is provided on the second portion 102 or the third portion 103 of the outer tube 130.

  The present invention has been described with reference to the embodiment shown in the drawings. However, this is merely an example, and various techniques can be used by those having ordinary knowledge in the field to which the technology pertains. It can be understood that various modifications and other equivalent embodiments are possible. Accordingly, the true technical protection scope of the present invention should be determined by the following claims.

DESCRIPTION OF SYMBOLS 100: Over tube 101: 1st part 101a: 1-1 part 101b: 1-2 part 101c: 1-3 part 101d: 1-4 part 102: 2nd part 103: 3rd part 110: Inside Tube 120: Shape support body 130: Outer tube 140: Pass tube 150: Bending adjustment wire 160: Bending adjustment instrument 170: Fixing ring

Claims (11)

In an endoscope overtube including a first portion whose end is bent, and a second portion that extends to the first portion and bends smaller than the first portion.
An inner tube into which the endoscope is inserted;
A shape support for surrounding the inner tube and maintaining the shape;
An outer tube inserted into the outer periphery of the shape support;
A pass tube provided between the inner tube and the outer tube;
An adjustment wire for movably inserted in the pass tube, connected to the ends of the inner tube and the outer tube, and for adjusting the degree of bending of the first portion;
An endoscope overtube, wherein the strength of the first portion of the shape support is formed to be weaker than the strength of the second portion of the shape support. The shape support is
The endoscope overtube according to claim 1, wherein the wire is formed in a spiral coil shape or a net shape. The shape support is
The endoscope overtube according to claim 2, wherein the diameter of the wire is smaller than the diameter of the adjusting wire. The shape support is
The endoscope overtube according to claim 2 or 3, wherein the wire diameter of the first portion is smaller than the wire diameter of the second portion. The shape support is
The endoscope overtube according to any one of claims 2 to 4, wherein when the wire has a coil shape, the wire pitch of the first portion is formed larger than the wire pitch of the second portion. . The shape support is
The endoscope overtube according to any one of claims 2 to 5, wherein when the wire has a net shape, the mesh of the first portion is formed larger than the mesh of the second portion. The shape support is
Composed of at least one wire,
The endoscope overtube according to any one of claims 2 to 6, wherein the first portion of the wire is formed of a single wire and the second portion of the wire is formed of two or more wires.   The endoscope overtube according to any one of claims 1 to 7, further comprising a fixing ring that is provided in the first portion and connects the bending adjustment wire. In an endoscope overtube including a first portion whose end is bent, and a second portion that extends to the first portion and bends smaller than the first portion.
An inner tube into which the endoscope is inserted;
A shape support for surrounding the inner tube and maintaining the shape;
An outer tube inserted into the outer periphery of the shape support;
A pass tube provided between the inner tube and the outer tube;
An adjustment wire for movably inserted in the pass tube, connected to the end of the inner tube or the outer tube, and for adjusting the degree of bending of the flexible part,
Endoscope over, wherein the first and second parts of the outer tube and the inner tube are made of different materials, but the strength of the first part is weaker than that of the second part. tube. In an endoscope overtube including a first portion whose end is bent, and a second portion that extends to the first portion and bends smaller than the first portion.
An inner tube into which the endoscope is inserted;
A shape support for surrounding the inner tube and maintaining the shape;
An outer tube inserted into the outer periphery of the shape support;
A pass tube provided between the inner tube and the outer tube;
An adjustment wire for movably inserted in the pass tube, connected to the end of the inner tube or the outer tube, and for adjusting the degree of bending of the flexible part,
The material of the first and second parts of the outer tube and the inner tube is made different from the material of the first and second parts of the shape support, but the strength of the first part is weaker than the strength of the second part. An endoscope overtube characterized by being formed. The first part is
A 1-1 part at the end;
A 1-2 part provided with a fixing ring;
A 1-3 part separated from the fixing ring and bent;
Including a first to fourth portion connected to the second portion and starting to bend,
The strength of the 1-1 portion and the 1-3 portion is formed to be weaker than the strength of the 1-2 portion and the 1-4 portion, according to any one of claims 1-10. End tube for endoscope.

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