JP2009165722A - Endoscope - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To make it possible to eliminate the disconnection of a linear member to be wound around a wheel, to be made simpler in structre and lighter in weight as compared to a chain, and further to obtain excellent responsiveness in a curving operation. <P>SOLUTION: A belt 16 is obtained by forming a projection/recession surface 16s, having projections/recessions in a movement direction, in a belt shape body made of rubber, forming a smooth surface 16T on the opposite side surface of the projection/recession surface 16s, and integrally molding high-strength fiber linear bodies 17 in the whole longitudinal and inner part of the belt shape body. A sprocket 14 is engaged with the projection/recession surface 16c of the belt 16, so as to connect wires 20a, 20b to the belt 16. Since the high-strength fiber linear bodies 17 are put into the belt 16, pulling strength in the curving operation is raised and also the disconnection is prevented. It is adequate that a roller tensioner for raising the response of the curving operation may be abutted on to the belt 16 or a wire loosening remover may be arranged. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a configuration for pulling and driving a wire in an endoscope in which a bending portion on a distal end side is bent using a wire.

  5A and 5B show a configuration of a conventional endoscope. The endoscope 1 includes an operation unit 1A, a bending unit 1B that can be bent, and an observation or imaging optical system. The tip portion 1C is disposed. Inside the endoscope 1, a winding wheel 2 is provided, and for example, two linear members (wires or the like) 3a, 3b are wound around the winding wheel 2, and the linear members 3a, 3b are wound up. The wires 4a and 4b are connected to each other through a connecting portion, and the wires 4a and 4b are arranged up to the tip portion 1C. The operation unit 1A is provided with an operation knob 5 that is axially connected to the winding wheel 2.

According to such an endoscope 1, the operation knob 5 is operated, the winding wheel 2 is rotated, and, for example, the wire 4 a is pulled to bend the bending portion 1 B, and the distal end portion 1 C is moved to the left side in the drawing. Can be directed. On the other hand, when the wire 4b is pulled, the distal end portion 1C faces the right side of the drawing.
Japanese Patent Laid-Open No. 9-10171 JP 2003-121759 A Japanese Patent Application Laid-Open No. 2002-233496

  However, the conventional endoscope 1 has problems such as disconnection or insufficient tensile strength in the linear members 3a and 3b such as wires wound around the winding wheel 2. That is, as the linear members 3a, 3b, metal twisted wires (Patent Document 1), ropes knitted from non-metallic fibers (Patent Document 1), chains (Patent Document 2), etc. are used. In the case of a stranded wire made of metal, when the wires (3a, 3b) are slackened due to the aging of the endoscope 1, it is difficult to absorb the slack, bend and break, and non-metallic fiber ropes If low-cost cotton or nylon is selected as the material, the tensile strength will be insufficient, and if high-strength fibers such as Kevlar are selected, the tensile strength will be high, but the compressive strength will be low, so it will be weak against bending and broken. It becomes easy to do. Furthermore, in the case of the chain, there are inconveniences that the structure is complicated and the weight is increased.

  Further, Patent Document 3 discloses that, as the linear members 3a and 3b, a timing belt that is not stretchable but has flexibility is used. There is a possibility.

  Furthermore, in the conventional endoscope 1, when the linear members 3 a and 3 b such as wires are stretchable, when the operation is performed by the operation knob 5, an operation response delay occurs due to expansion and contraction, and direct feeling is impaired. There is also the problem of being.

  The present invention has been made in view of the above problems, and its purpose is to eliminate the disconnection of the linear member wound around the winding wheel, and the structure is simpler and lighter than the chain, It is another object of the present invention to provide an endoscope that can obtain good responsiveness in bending operation.

In order to achieve the above object, the invention according to claim 1 is directed to a rubber band-like body in an endoscope that bends a bending portion by pulling and driving a wire disposed on the distal end side of the endoscope. In addition to forming an uneven surface with unevenness in the moving direction, the opposite side of the uneven surface is formed into a smooth surface (flat surface), and high-strength fibers (linear bodies, A belt formed integrally with the belt and a sprocket having external teeth (unevenness) to be engaged with the unevenness of the belt, and the belt engaged with the sprocket is connected to the wire to perform a bending operation. Then, the sprocket is rotated and the wire is pulled and driven.
The invention of claim 2 is characterized in that a roller tensioner (roller and urging force generator) for eliminating slack of the belt and the wire is brought into contact with and arranged on the smooth surface of the belt.
The invention of claim 3 is characterized in that a slack remover for removing slack of the wire is provided.

  According to the first aspect of the present invention, the high-strength fibers in the entire longitudinal direction increase the strength of the rubber belt, and the elastic belt does not expand and contract, and the belt and the sprocket are reliably engaged by the unevenness. As a result, the belt itself does not sag. Accordingly, there is no fear of disconnection, and the responsiveness of the bending operation is improved.

  According to the second aspect of the present invention, since the pressing force is applied to the belt by the roller tensioner, the slack of the belt and the wire driven in particular by tension is eliminated, and the delay in response due to the slack can be prevented. According to the configuration of the third aspect, the slack of the wire itself is absorbed and removed, and the belt and the wire are driven smoothly.

According to the endoscope of the present invention, since the belt is formed by integrally molding high-strength fibers, it is possible to eliminate the disconnection of the member attached to the sprocket as the winding wheel, and the structure is simple compared to the chain. In addition, the weight is reduced, and further, good responsiveness can be obtained in the bending operation.
Further, according to the configuration of claim 2, it is possible to prevent a delay in the response of the bending operation based on the slackness of the wire or the like, and according to the configuration of claim 3, it is possible to smoothly drive the belt and the wire. effective.

  1 and 2 show the configuration of the endoscope according to the first embodiment. The endoscope of the first embodiment has the same configuration as that shown in FIG. Shows a part of the operation unit 10A. In the operation portion 10A of the endoscope 10, a sprocket (winding wheel) 14 fixed to a shaft 12 serving as a rotation shaft of a bending operation knob (5 in FIG. 5) is disposed. A belt 16 is provided that engages 14.

  That is, the belt 16 has an uneven surface (gear tooth surface) 16s in which unevenness is alternately formed in the longitudinal direction on one surface (inner surface) of a belt-shaped body (main body) made of a rubber material, and the other surface. (Outer surface) has a smooth surface (plane) 16t (similar to what is called a timing belt), and as shown in FIG. 2, high-strength fibers are formed throughout the longitudinal direction inside the strip. The linear body 17 is integrally formed. Instead of the linear body 17, a planar body knitted with high-strength fibers may be integrally formed.

  On the other hand, the sprocket 14 is provided with external teeth (unevenness) that engage with the unevenness of the uneven surface 16s, and the uneven surface of the belt 16 is provided on the external teeth of the sprocket 14 as shown in FIG. It is attached so that 16s may mesh. And the edge part of this belt 16 is connected with the wires 20a and 20b by the coupling tools 19a and 19b, and these wires 20a and 20b are arrange | positioned to a front-end | tip part through a curved part.

  According to the first embodiment, the sprocket 14 is rotated by rotating the operation knob, and the wires 20a and 20b are pulled and driven via the belt 16, so that the bending portion (and the tip portion) is moved up and down (and the tip portion). (Or left and right). And in the said belt 16, the intensity | strength with respect to the tension | tensile_strength of belt itself increases with the high strength fiber linear body 17 inside, and generation | occurrence | production of a disconnection is prevented.

  Further, the belt 16 does not expand and contract, and the uneven surface 16s reliably meshes with the external teeth of the sprocket 14, so that the belt 16 itself is not slackened and the responsiveness of the bending operation is improved.

  3 and 4 show the configuration of the second embodiment in which a roller tensioner and a relaxation remover are provided, and the operation portion 22A of the endoscope 22 of the second embodiment is similar to that of the first embodiment. Similarly, a belt 16 having a concavo-convex surface 16s and a smooth surface 16t and a sprocket 14 are disposed. As shown in FIG. 3, a roller tensioner 24 is provided for abutting against the smooth surface 16t of the belt 16 to give a pressing force. The roller tensioner 24 supports the support 24b so that the roller 24a can rotate. The other end of the support 24b is pivotally supported on the shaft 24c, and the support 24b is urged in the direction of the belt 16 (counterclockwise) by the urging member 24d. It becomes the composition to do.

  Further, relaxation removers 27-1 and 27-2 are provided between the wires 26a and 26b and the wires 26c and 26d connected to the belt 16 through connecting members 19a and 19b. For example, as shown in FIG. 4A, the slack removers 27-1 and 27-2 have wires 26c and 26d connected to the inside of a cylindrical body 27a to which wires 26a and 26b are connected and fixed. The fixed slide body 27b is attached to be slidable up and down, and the slack of the entire wires (26a to 26d) can be removed by drawing the wires 26c and 26d into the cylindrical body 27a.

  According to the second embodiment, the roller 24a of the roller tensioner 24 is brought into contact with the smooth surface 16t of the belt 16, and a pressing force that urges the belt 16 inward is applied to the belt 16. When the wires 26a and 26c are pulled by the clockwise rotation of the sprocket 14 interlocked with the operation of the operation knob, for example, when the wires 26a and 26c are pulled, an immediate good responsiveness can be obtained. Curvature driving is performed. Conversely, even when the sprocket 14 is rotated counterclockwise, the overall slackness of the wires 26a to 26d is eliminated by the roller tensioner 24, so that excellent responsiveness can be obtained.

  Further, during the bending operation in which the bending portion is returned straight or bent in the opposite direction, the slackness of the wires 26a to 26d is always removed by the slack removers 27-1 and 27-2, so that the wires 26a to 26d and The belt 16 can be driven smoothly and the bending operation can be performed smoothly.

  In the second embodiment shown in FIG. 3, the roller tensioner 24 is provided on one side. However, the roller tensioner 24 may be provided on both the left and right sides of the belt 16 or may be configured as shown in FIG. it can. That is, in the roller tensioner 30 of FIG. 4B, the shaft portions 32 of the rollers 30a and 30b are slidably engaged in guide holes (long holes) provided at both ends of the support piece 30c. , 30b are pulled inward by a biasing member (spring etc.) 30d. Even in such a configuration, the entire slack of the belt 16 and the wires 26a to 26d can be eliminated by pressing the two belts 16 below the sprocket 14 inward.

It is a figure which shows the internal structure (part regarding a curved part drive) of the endoscope which concerns on 1st Example of this invention. FIG. 1A is a cross-sectional view taken along the line AA of FIG. 1 and FIG. 1B is a cross-sectional view of the belt of FIG. It is a figure which shows the internal structure of the endoscope of 2nd Example. It is a figure which shows the structure [Figure (A)] of the slack remover of 2nd Example, and the other structure [Figure (B)] of a roller tensioner. FIG. 1A shows a configuration related to driving of a bending portion of a conventional endoscope, FIG. 1A is a view of a winding wheel viewed from the side, and FIG. 2B is a view when the endoscope of FIG. FIG.

Explanation of symbols

1, 10, 22 ... Endoscope, 1A, 10A, 22A ... Operation part,
1B: curved portion, 1C: tip portion,
2 ... Winding wheel, 14 ... Sprocket,
16 ... belt, 16s ... uneven surface,
16t ... smooth surface, 17 ... high-strength fiber linear body,
20a, 20b, 26a-26d ... wire,
24, 30 ... roller tensioner, 24a, 30a, 30b ... roller,
27-1, 27-2 ... Relaxation removers.

Claims (3)

In an endoscope that bends a bending portion by pulling and driving a wire arranged on the distal end side of the endoscope,
The rubber band is formed with an irregular surface with irregularities in the moving direction, the opposite side of the irregular surface is formed as a smooth surface, and high-strength fibers are integrated in the entire longitudinal direction inside the band. A molded belt,
A sprocket having external teeth that engage with the belt irregularities is provided,
An endoscope, wherein the belt engaged with the sprocket is connected to the wire, the sprocket is rotated by a bending operation, and the wire is pulled and driven.   2. The endoscope according to claim 1, wherein a roller tensioner that eliminates the slack of the belt and the wire is in contact with and disposed on the smooth surface of the belt.   3. The endoscope according to claim 1, further comprising a relaxation remover for removing the slack of the wire.

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