JP2004016661A - Surgery tool - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a surgery tool having satisfactory operability whose operation part can be rotated without moving the wrist markedly. <P>SOLUTION: This surgery tool 1 is provided with: an insertion part 2 to be inserted to inside of the body; a treatment part 3 provided at one end of the insertion part 2; and an operation part 4 provided at the other end of the insertion part 2 and rotatable with one shaft as a center. The operation part 4 is provided with grips 37a and 39a which can be gripped with two fingers and can be rotated and operated with inside of the palm. The grips 37a and 39a comprise grip surfaces 37b and 39b which respectively direct the two fingers along axes nearly orthogonal to each other. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an insertion portion to be inserted into a body, an operation portion provided at a base end portion of the insertion portion and gripped by an operator, and provided at a distal end of the insertion portion and rotated and opened and closed by the operation portion. The present invention relates to a surgical treatment tool including a treatment section.
[0002]
[Prior art]
An insertion section to be inserted into the body, an operation section provided at a base end of the insertion section and gripped by an operator, and a treatment section provided at a distal end of the insertion section and rotated and opened and closed by the operation section. Various types of surgical treatment tools are conventionally known.
[0003]
FIG. 23 shows an example of such a conventional surgical treatment tool. As shown in the figure, the surgical treatment instrument 200 includes an insertion section 202 to be inserted into a body, an operation section 204 provided at a base end of the insertion section 202 and gripped by an operator, and a distal end of the insertion section 202. And a treatment unit (not shown) that is rotated and opened and closed by the operation unit 204. The operation unit 204 includes a pair of handles 206 and 208 that can be opened and closed about an opening and closing shaft 210. The entire operation unit 204 including the handles 206 and 208 can be turned up and down around one first axis O1, and can be turned right and left around a second axis O2 orthogonal to the first axis O1. It can be rotated.
[0004]
In the actual operation, first, the thumb is hooked on the ring-shaped finger hook 206a of the first handle 206 of the operation unit 204, and the fingers other than the thumb (see FIG. Then hook the ring finger). Then, when the first handle 206 and the second handle 208 are relatively rotated about the opening / closing shaft 210, a treatment section (not shown) can be opened and closed. On the other hand, when the entire operation unit 204 including the handles 206 and 208 is rotated in the vertical direction (the direction of the arrow A in the drawing) with the first axis O1 as a fulcrum, the treatment unit (not shown) also has a surface on which the operation unit 204 rotates. (Vertically around an axis parallel to the first axis O1). When the entire operation unit 204 including the handles 206 and 208 is rotated left and right about the second axis O2 as a fulcrum, the treatment unit (not shown) is also rotated left and right about an axis parallel to the second axis O2. . FIG. 24 shows a state in which the entire operation unit 204 including the handles 206 and 208 is rotated leftward (as viewed from the hand) with the second axis O2 as a fulcrum. FIG. 25 shows a state in which the entire operation unit 204 including the operation unit 204 is rotated rightward about the second axis O2 as a fulcrum.
[0005]
[Problems to be solved by the invention]
As shown in FIG. 23, the operation unit 204 includes a pair of openable and closable handles 206, 208, and the ring-shaped finger hooks 206a, 208a of the handles 206, 208 are arranged in parallel in the same plane. Specifically, in a shape in which two fingers are inserted in parallel with the holes of the finger hooks 206a and 208a for inserting the fingers, the two fingers are both joined by the finger hooks 206a and 208a. Since the finger is restricted only in the same direction and the movement of the finger is restricted, the operation unit 204 is centered on the second axis O2 perpendicular to the opening direction of the holes of the finger hooks 206a and 208a as described above. When rotating the entire body, it is necessary to largely move the wrist 220 as shown in FIGS. Therefore, depending on the posture of the surgical treatment tool, the operability is extremely deteriorated, which may cause inconveniences such as forcibly twisting the wrist and preventing the treatment from proceeding as desired.
[0006]
In addition, a surgical treatment tool formed in a grip shape capable of grasping the handle with a hand without providing a ring-shaped finger hook has been proposed (for example, see Japanese Patent Application No. 2002-39134). , The movement of the finger is eventually restricted, and the same problem as described above occurs.
[0007]
The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a surgical treatment tool with good operability capable of rotating an operation unit without greatly moving a wrist. It is in.
[0008]
[Means for Solving the Problems]
In order to solve the problem, the invention described in claim 1 is provided with an insertion portion to be inserted into a body, a treatment portion provided at one end of the insertion portion, and a treatment portion provided at the other end of the insertion portion, A surgical treatment tool including an operating portion rotatable about one axis, the operating portion includes a grip that can be gripped by two fingers and that can be rotated inside a palm, and the grip is And a gripping surface for directing the two fingers along axes substantially orthogonal to each other.
[0009]
According to a second aspect of the present invention, there is provided an insertion portion to be inserted into a body, and an openable and closable treatment portion provided at one end of the insertion portion, the treatment portion being rotatable about at least two axes. A treatment unit, an openable and closable operation unit provided at the other end of the insertion unit, the operation unit being rotatable about at least two axes, and connecting the operation unit and the treatment unit A driving means for transmitting an operation force of the operation unit to the treatment unit to operate the treatment unit, wherein the operation unit and the treatment unit are rotatable in at least two planes. The operation unit includes a grip that can be gripped by two fingers and that can be rotated inside the palm, and the grip has a gripping surface that directs the two fingers along axes that are substantially orthogonal to each other. It is characterized by having.
[0010]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0011]
1 to 16 show a first embodiment of the present invention.
[0012]
As shown in FIG. 1, a surgical treatment tool 1 according to the present embodiment is provided at an insertion portion 2, a treatment portion 3 provided at a distal end portion of the insertion portion 2, and a base end portion of the insertion portion 2. And an operation unit 4.
[0013]
As shown in FIGS. 2 to 6, the insertion portion includes a first drive rod 5 constituting an opening / closing link mechanism made of a small-diameter rod, a second drive rod 6 constituting a rotation link mechanism, and a third drive rod 6. And the driving rod 7 are arranged in parallel or substantially in parallel. The first drive rod 5 is arranged so as to be biased to one side of the longitudinal center axis of the insertion section 2 (in this embodiment, a lower side with respect to a support section 8 described later). The second and third drive rods 6 and 7 are on the opposite side of the first drive rod 5 with respect to the longitudinal center axis of the insertion section 2 (in this embodiment, on the support section 8 described later). And symmetrically arranged, and can advance and retreat independently in the axial direction.
[0014]
2 and 3 show the treatment section 3 in detail. As shown in the drawing, a rigid supporting portion (base) 8 is provided integrally with the insertion portion 2 over substantially the entire length thereof. A slit portion 8a is provided at the tip of the support portion 8, and the slit portion 8a has a first turn rotatable in the left-right direction by a pivot shaft 9 orthogonal to the axial direction of the insertion portion 2. The moving plate 10 is connected. A first pivot pin 11 is fixed to the first rotating plate 10 in a direction perpendicular to the pivot 9. The first pivot pin 11 has a base end of a first treatment piece 12. Are rotatably supported. Further, a portion of the first treatment piece 12 located near the first pivot pin 11 is formed as a bent portion 12a, and the bent portion 12a is provided with second and third drive rods by means described later. 6, 7 are connected.
[0015]
A second treatment piece 14 is rotatably connected to an intermediate portion of the first treatment piece 12 by a first opening / closing pivot pin 13, whereby the first treatment piece 12 and the second treatment are provided. The pieces 14 can rotate about the first opening / closing pivot pin 13 as a fulcrum. One end of the first connecting member 16 is pivoted at the base end of the second treatment piece 14 via the first connecting pin 15 extending in the left-right direction (the direction orthogonal to the axial direction of the insertion section 2). The other end of the first connecting member 16 is connected to a second connecting member 18 via a second connecting pin 17 orthogonal to the axial direction of the insertion section 2. The other end of the second connecting member 18 is rotatably connected to the distal end of the first driving rod 5 via a third connecting pin 19 extending in the left-right direction.
[0016]
Further, a second rotating plate 21 is connected to the bent portion 12a of the first treatment piece 12 via a second pivot pin 20 extending in the left-right direction. The proximal end of the second rotating plate 21 is wide in the left-right direction, and the proximal end of the second rotating plate 21 has a first rotating pin 22 perpendicular to the axial direction of the insertion portion 2. And the second rotation pin 23 are provided to be separated in the left-right direction. The first rotation pin 22 is connected to the second drive rod 6, and the second rotation pin 23 is connected to the third drive rod 7.
[0017]
The three drive rods 5, 6, and 7 are exposed to the outside. That is, the insertion portion 2 does not have a cover for accommodating the three drive rods 5, 6, and 7, and the three drive rods 5, 6, and 7 are all exposed. Therefore, in order to prevent the first drive rod 5 involved in opening and closing the treatment section 3 from hanging downward (dropping from the support section 8) when opening the treatment section 3, the distal end portion of the insertion section 2 has A U-shaped cover 101 for supporting the first drive rod 5 from both sides is provided.
[0018]
The first treatment piece 12 has a grip surface 12b, and the second treatment piece 14 has a grip surface 14b. In this case, the gripping surfaces 12b and 14b are positioned so as to face each other in parallel, and can grip the gripping target object in cooperation with each other. The gripping surfaces 12b and 14b are provided with unevenness as necessary, so that the objects to be gripped, such as suture needles, sutures, and living tissues, can be reliably gripped. It has become. Further, in the present embodiment, step portions 12c are formed on both sides of the distal end of the first treatment piece 12 so that the width of the treatment piece 12 can be reduced so that a thin needle can be easily grasped.
[0019]
Next, the operation unit 4 will be described with reference to FIGS.
[0020]
As can be seen from these figures, also at the base end of the insertion section 2, the base end of the first drive rod 5 is located below the longitudinal center axis of the insertion section 2 (below the support section 8). The base ends of the second and third drive rods 6 and 7 are arranged symmetrically above and below the longitudinal center axis of the insertion section 2 (above the support section 8). .
[0021]
A first pivot 33 having a second pivot 32 perpendicular to the axial direction of the insertion section 2 is provided at the base end of the support 8 located on the operation section 4 side. 33 is provided with a third rotation plate 34 that can rotate left and right about the second pivot 32.
[0022]
Further, the third pivot plate 34 is provided with a second pivot portion 36 having a third pivot pin 35 extending in the left-right direction, and the second pivot portion 36 has a third pivot pin 36. A first operating body 37 that can rotate up and down around a pivot pin 35 is connected. A second operating body 39 is connected to the first operating body 37 by a second opening / closing pivot pin 38 so as to be vertically rotatable. Further, as clearly shown in FIG. 1, the first operating body 37 is provided with a first grip 37 a which the operator grips using a finger other than the thumb during operation, and the second operating body 39. Is provided with a second grip 39a which the surgeon grips with the thumb during operation.
[0023]
The first driving rod 5 is connected to a third connecting member 41 rotatable in the left-right direction via a fourth connecting pin 42 orthogonal to the axial direction of the insertion portion 2 (extending in the vertical direction). Have been. The third connection member 41 is connected to the fourth connection member 43 via a fifth connection pin 40 provided at one end of the fourth connection member 43 and extending in the left-right direction. A second operating body 39 is connected to the other end of the fourth connecting member 43 via a sixth connecting pin 44 extending in the left-right direction so as to be rotatable up and down.
[0024]
In the vicinity of the third pivot pin 35 of the first handle 37, a fourth pivot pin 45 extending in the left-right direction is located. The fourth pivot pin 45 is provided at one end of a fourth pivot plate 46. The pin 45 has a first handle 37 that pivots up and down about the third pivot pin 35. Are rotatably connected. At the other end of the fourth rotating plate 46, a third rotating pin 47 and a fourth rotating pin 48 (extending in the vertical direction) orthogonal to the axial direction of the insertion section 2 are separated from each other in the left and right directions. Is provided. Then, the base end of the fifth drive rod 72 and the base end of the sixth drive rod 73 located on the left and right sides of the third rotation pin 47 and the fourth rotation pin 48 respectively rotate. They are freely connected.
[0025]
As shown in FIG. 7, on the outer surface of the first grip 37a attached to the first operating body 37, an arc-shaped concave surface (gripping surface) 37b on which a finger other than the thumb can be hooked is formed. ing. A flat mounting surface (rectangular gripping surface) 39b on which the thumb can be mounted in the extending direction is formed on the outer surface of the second grip 39a. The central axis O 'of the concave surface 37b and the axis L' extending in the extending direction of the mounting surface 39b are substantially orthogonal to each other.
[0026]
A rotation angle of the second grip 39a with respect to the first grip 37a is defined between the first grip 37a and the second grip 39a (the first grip 37a, the second grip 39a, Is fixed at a fixed opening angle). Specifically, the ratchet mechanism includes a ratchet 82 fixed to the second grip 39a via a fixing pin 106, and a claw 83a fixed to the first grip 37a and locked to the teeth 82a of the ratchet 82 at the tip end. And a ratchet release lever 83 provided in the above.
[0027]
The ratchet 82 extends from the second grip 39a into a ratchet mechanism housing 108 formed on the first grip 37a. The storage portion 108 is formed as a through hole penetrating from the opposing surface 37c of the first grip 37a facing the second grip 39a to the surface on the opposite side. A ratchet release lever 83 is accommodated in the ratchet accommodating portion 108. The ratchet release lever 83 is rotatably attached to a shaft 107 fixed to the first grip 37a, and has a claw 83a at one end thereof for engaging and disengaging the teeth 82a of the ratchet 82, The other end protrudes outward from the ratchet storage unit 108.
[0028]
Further, a leaf spring 109 is provided between the ratchet releasing lever 83 and the first grip 37a. The leaf spring 109 constantly urges the ratchet releasing lever 83 in a direction in which the pawl 83a is engaged with the ratchet teeth 82a. The leaf spring 109 has one end fixed to the ratchet releasing lever 83 and the other end elastically abutting against the leaf spring receiving portion 110 on the inner surface of the first grip 37a forming the ratchet housing 108.
[0029]
Between the first grip 37a and the second grip 39a, a handle release spring (torsion spring) 105 for urging the first grip 37a and the second grip 39a away from each other (opening direction). Is provided. One end of the handle release spring 105 abuts on the opposing surface 37c of the first grip 37a facing the second grip 39a, and the other end of the handle release spring 105 faces the first grip 37a. The handle gripping spring 105 is in contact with the opposing surface 39c of the second grip 39a, and an intermediate portion of the handle release spring 105 is wound around the second opening / closing pivot pin 38. The second operating body 39 has a notch 39b around the second opening / closing pivot pin 38 for accommodating the handle opening spring 105.
[0030]
The column 100 is attached to the first grip 37a. The column 100 extends along an axis O3 orthogonal to the second opening / closing pivot pin 38. In addition, a sphere portion 100a that can be received by the palm is formed at an end of the support column 100.
[0031]
Further, in the present embodiment, in order to ensure good operability of the operation unit 4, the longitudinal axis O4 of the column 100 is close to and substantially parallel to the axis O3 orthogonal to the second opening / closing pivot pin 38. I have. Further, in order to make the moving amount of the thumb placed on the placing surface 39b substantially equal to the moving amount of the finger hooked on the concave surface 37b and to easily rotate the operation unit 4, the circular arc forming the concave surface 37b is formed. The distance L1 between the tangent L and the axis O3 is set to be equal to the distance L2 between the axis L 'extending in the direction in which the mounting surface 39b extends and the axis O3 (L1 and L2 are: It is preferably 10 to 25 mm).
[0032]
In the present embodiment, the first grip 37a, the second grip 39a, and the support column 100 are set to a size such that they can easily fit in the palm (specifically, the arc and tangent of the concave portion 37b). The distance L3 (see FIG. 7) from the contact point with L to the end of the support column 100 is set to a size that fits in the palm of the surgeon), and in particular, the first grip 37a and the second grip 39a As shown in FIGS. 15 and 16, for example, it is formed in a size that fits in a space formed by opening the thumb 113, the index finger 114, and the middle finger 115 without difficulty.
[0033]
In addition, as will be described later, in the present embodiment, since the treatment section 3 is opened and closed by opening and closing the grips 37a and 39a (the operation bodies 37 and 39), the pitch θ1 of the teeth 82a of the ratchet 82 is set between the grips 37a and 39a. It has an effect of defining the resolution of the opening, that is, the resolution of the opening of the treatment section 3. Therefore, in order to improve the gripping property of the treatment section 3, it is necessary to appropriately set the resolution of the opening degree of the treatment section 3. Therefore, in the present embodiment, the pitch θ1 of the teeth 82a of the ratchet 82 is set smaller than the diameter of, for example, the suture needle 111 to be grasped. Specifically, as shown in FIG. 8, a grasping position assumed when grasping the suture needle 111 with the treatment pieces 12 and 14, particularly, a cross-sectional center O ″ of the suture needle 111 grasped at the assumed grasping position. , The radius of an arc R (dashed-dotted line in the figure) centered on the first opening / closing pivot pin 13 is r, the diameter of the suturing needle 111 is D, and the treatment piece 12 when the suturing needle 111 is gripped. , 14 is assumed to be θ2, assuming that D is sufficiently small with respect to r, the distance between the contact points between the suturing needle 111 and the treatment pieces 12, 14 is as close as possible to D, so that θ2 = 2 sin ^-1 (D / 2r). Therefore, in order to set the pitch θ1 of the teeth 82a of the ratchet 82 smaller than the diameter of the suturing needle 111, θ1 <2sin ^-1 (D / 2r) = θ2.
[0034]
Further, the surgical treatment tool 1 of the present embodiment is provided with a means for regulating a vertical rotation range of the operation unit 4 about the third pivot pin 35 as a fulcrum. Specifically, as shown in FIGS. 1, 9, and 10, a plate-shaped stopper 104 extending in a direction orthogonal to the second opening / closing pivot pin 38 is provided on the first operating body 37, A rotation restricting cover 102 that regulates the vertical rotation range of the operation unit 4 in cooperation with the stopper 104 is provided at the base end of the insertion unit 2. The rotation restricting cover 102 is attached to the insertion portion 2 by a set screw 103, and a first protrusion 102a that can contact the stopper 104 and a second protrusion that can contact the first operation body 37. 102b. The first and second protrusions 102a and 102b extend along the longitudinal direction of the insertion section 2 and face each other with the longitudinal axis of the insertion section 2 interposed therebetween. In this case, the width L4 of each protruding portion 102a, 102b is set smaller than the width L5 of the support portion 8.
[0035]
Next, the operation of the surgical treatment instrument 1 configured as described above will be described. When the second and third drive rods 6 and 7 are simultaneously advanced from the state shown in FIGS. 1 to 3, the bending portion 12 a of the first treatment piece 12 is moved forward through the second rotation plate 21. , The second treatment piece 14 connected to the first treatment piece 12 via the first opening / closing pivot pin 13 also rotates in the same direction as the first treatment piece 12. As a result, the first and second treatment pieces 12 and 14 can be rotated substantially horizontally around the first pivot pin 11 orthogonal to the longitudinal center axis of the insertion section 2.
[0036]
Next, when the second drive rod 6 is retracted and the third drive rod 7 is moved forward, the first rotating plate 10 moves rightward (from the operation unit 4 side) with the first pivot 9 as a fulcrum. Therefore, the first and second treatment pieces 12 and 14 (the entire treatment section 3) rotate rightward about the first pivot shaft 9 as a fulcrum.
[0037]
Conversely, when the second drive rod 6 is advanced and the third drive rod 7 is retracted, the first rotating plate 10 is moved leftward (from the operation unit 4 side) with the first pivot 9 as a fulcrum. 1), the first and second treatment pieces 12 and 14 (the entire treatment section 3) rotate leftward about the first pivot shaft 9 as a fulcrum.
[0038]
In any rotation state, when the first drive rod 5 is advanced, the base end of the second treatment piece 14 moves forward via the first connection member 16 and the second connection member 18. , The second treatment piece 14 is rotated about the first open / close pivot pin 13 with respect to the first treatment piece 12, whereby the treatment section 3 is opened. Conversely, when the first drive rod 5 is retracted from this open state, the base end of the second treatment piece 14 is pulled back via the first connection member 16 and the second connection member 18. Therefore, the second treatment piece 14 is rotated about the first opening / closing pivot pin 13 with respect to the first treatment piece 12, and the treatment section 3 is closed.
[0039]
As described above, according to the present embodiment, the entire treatment section 3 including the openable and closable first and second treatment pieces 12 and 14 can be rotated in the up-down direction and the left-right direction. The second treatment pieces 12 and 14 can easily approach the target site, and the degree of freedom of treatment can be improved.
[0040]
In an actual operation, first, as shown in FIG. 15, the first grip 37a of the first operation body 37 of the operation unit 4 is gripped by using any finger other than the thumb, and The second grip 39a of the operation body 39 is gripped by the thumb. Specifically, the thumb 113 is placed on the mounting surface 39b of the second grip 39a, and the middle finger 115 is hooked on the concave surface 37b of the first grip 37a. At this time, since the central axis O ′ of the concave surface 37b and the axis L ′ extending in the extending direction of the mounting surface 39b are substantially perpendicular to each other, the thumb 113 and the middle finger 115 are oriented so as to be substantially perpendicular to each other. Can be When the grips 37 and 39 are gripped by the two fingers 113 and 115 in this manner, the grips 37 and 39 are accommodated inside the palm, and the sphere 100a of the column 100 hits the palm, and the column 100 is supported by the palm. can do. When the index finger 114 is attached to the support portion 8, the grips 37 and 39 can be stably gripped. Alternatively, the index finger 114 may be hooked on the concave surface 37b instead of the middle finger 115. In FIG. 15, reference numeral 118 denotes a trocar for introducing the treatment tool 1 into the body, 119 denotes a patient's body wall, and 120 denotes an organ.
[0041]
After gripping the grips 37 and 39 with the two fingers 113 and 115 as described above, the first operation body 37 and the first operation body 37 of the operation unit 4 are changed from the horizontal state illustrated in FIGS. When the second operating body 39 is simultaneously rotated downward by 90 ° about the third pivot pin 35 as a fulcrum, the second and third driving rods 6 and 7 are simultaneously inserted through the fourth rotating plate 46 into the insertion portion. 2, the first drive rod 5 advances toward the treatment section 3 via the fourth connection member 43 and the third connection member 41 so as to interlock with this. Therefore, the first connection pin 15 is protruded to the distal end side via the first connection member 16 on the treatment section 3 side connected to the first drive rod 5, and the second rotation plate 21. Since the bent portion 12a of the first treatment piece 12 is pulled back backward, the first and second treatment pieces 12, 14 do not relatively rotate, and remain in the closed state while maintaining the closed state. About the pivot pin 11 as a fulcrum until it is turned upward by 90 °. This state is shown in FIGS. 9 and 11A. When the operation unit 4 is rotated downward by 90 ° in this manner, the first operation body 37 comes into contact with the second protruding portion 102b of the rotation restricting cover 102 on the insertion unit 2 side, and the first operation body 37 is rotated. The above rotation is restricted. At this time, since the width L4 of the protrusion 102b is set smaller than the width L5 of the support 8, the finger 114 is attached near the rotation restricting cover 102 as shown in FIG. However, the finger 114 comes into contact with the side surface of the wide supporting portion 8 instead of the narrow protruding portion 102b, and therefore, between the first operating body 37 and the second protruding portion 102b. The finger 114 can be prevented from being pinched (as a result, operability is improved).
[0042]
Conversely, from the state shown in FIGS. 9 and 11A, the first operating body 37 and the second operating body 39 are rotated upward with the third pivot pin 35 as a fulcrum, and When the first operation body 37 and the second operation body 39 are made horizontal, the first drive rod 5 retreats toward the operation section 4 via the fourth connection member 43 and the third connection member 41, and The second and third drive rods 6 and 7 advance along the insertion portion 2 at the same time via the fourth rotation plate 46. Therefore, the first connection pin 15 is pulled toward the operation unit 4 via the first connection member 16 on the treatment section 3 side connected to the first drive rod 5, and the second rotation plate 21 is moved. Since the bent portion 12a of the first treatment piece 12 is pushed forward through the first treatment piece 12, the first and second treatment pieces 12 and 14 do not relatively rotate and maintain the closed state while maintaining the closed state. The first pivot pin 11 is pivoted to a substantially horizontal position using the pivot pin 11 as a fulcrum (to be straight). This state is shown in FIGS. 10 and 11B. When the operation unit 4 is rotated upward by 90 ° in this manner, the stopper 104 of the first operation body 37 comes into contact with the first protrusion 102a of the rotation restricting cover 102 on the insertion unit 2 side, and the operation unit Further rotation of 4 is restricted. At this time, since the width L4 of the protruding portion 102a is set smaller than the width L5 of the support portion 8, the finger 114 is attached near the rotation restricting cover 102 as shown in FIG. However, the finger 114 comes into contact with the side surface of the wide supporting portion 8 instead of the narrow protruding portion 102a. Therefore, the finger 114 is sandwiched between the stopper 104 and the first protruding portion 102a. Can be prevented (as a result, operability is improved).
[0043]
As described above, in the surgical treatment tool 1 of the present embodiment, the first and second operating bodies 37 and 39 on the operating section 4 side are vertically rotated about the third pivot pin 35 as a fulcrum. In addition, the treatment section 3 can be positioned straight along the axial direction of the insertion section 2 or can have an angle with respect to the axis of the insertion section 2.
[0044]
Further, if the first operating body 37 and the second operating body 39 are relatively rotated, the first and second treatment pieces 12 and 14 are relatively rotated, and the treatment section 3 is moved. Can be opened. That is, when the second operating body 39 is rotated with respect to the first operating body 37 about the second opening / closing pivot pin 38 as a fulcrum (when the first grip 37a and the second grip 39a are opened and closed), The first drive rod 5 moves forward and backward via the fourth connection member 43 and the third connection member 41. Therefore, the first connection pin 15 moves back and forth through the first connection member 16 on the treatment section 3 side connected to the first drive rod 5, and the first opening / closing pivot pin 13 is used as a fulcrum. The second treatment piece 14 rotates with respect to the first treatment piece 12, and the treatment section 3 opens and closes.
[0045]
When the first grip 37a and the second grip 39a are relatively rotated as described above, the above-described ratchet mechanism exerts its effect. That is, when the grips 37a, 39a are closed (pinched) against the urging force of the handle release spring 105, the claws 83a of the ratchet release lever 83 are engaged with the teeth 82a of the ratchet 82 while the teeth 83a are locked. It moves along 82a. Therefore, the opening degree of the first grip 37a and the second grip 39a, that is, the opening degree of the first treatment piece 12 and the second treatment piece 14 can be changed in a stepwise manner. The degree can be fixed at an arbitrary opening.
[0046]
When the grips 37a and 39a are closed, the opening spring 105 is elastically deformed and the spring force is stored. Therefore, when the lever 83 is pressed down against the urging force of the leaf spring 109 in a state where the spring force is stored, the locked state between the claw 83a and the ratchet teeth 82a is released, and the spring force of the opening spring 105 is released. Is released, and the second grip 39a is automatically rotated by the urging force of the opening spring 105 so as to be separated from the first grip 37a about the second opening / closing pivot pin 38 as a fulcrum.
[0047]
In the case where the treatment section 3 is opened and closed to grip the target in this manner, in the present embodiment, the following advantages can be obtained by the above-described set pitch of the ratchet teeth 82a. That is, in the present embodiment, as described above, in order to set the pitch θ1 of the teeth 82a of the ratchet 82 smaller than the diameter D of the suture needle 111, θ1 <2sin ^-1 (D / 2r). Therefore, when the grips 37, 39 are closed while shifting the ratchet teeth 82a in units of one pitch, as shown in FIG. 14, the treatment pieces 12, 14 also have a width corresponding to the set pitch θ1 of the ratchet teeth 82a, ie, Then, the needle is closed with a width X ′ (θ1) smaller than the diameter D of the suturing needle 111. Therefore, the suturing needle 111 is gripped with an appropriate elastic deformation of the link mechanism, and the suturing needle 111 can be gripped in an ideal state. On the other hand, when the pitch θ1 of the teeth 82a of the ratchet 82 is larger than the diameter D of the suturing needle 111, the grips 37 and 39 are closed while shifting the ratchet teeth 82a by one pitch, as shown in FIG. As the treatment pieces 12 and 14 also close with a width X larger than the diameter D of the suture needle 111, the treatment piece 14 does not stop at a position where the suture needle 111 can be grasped well. If the treatment piece 14 is forcibly closed and the needle 111 is to be grasped, the link mechanism may be excessively deformed and the link mechanism may be broken. Even if the needle 111 can be grasped in this state, the needle 111 may be damaged, and an extra force is imposed on the operator.
[0048]
FIG. 12 shows a state in which the first operation body 37 and the second operation body 39 are both turned 60 ° in the left lateral direction (as viewed from the operation unit 4 side). In this state, with the rotation of the first operating body 37 and the second operating body 39, the first and second treatment pieces 12, 14 are also rotated rightward by 60 ° in a closed state. . That is, when the first operation 37 and the second operation body 39 are simultaneously rotated leftward with the second pivot 32 as a fulcrum (see FIG. 16), the fourth operation plate 46 is interposed. The second drive rod 6 moves backward, and the third drive rod 7 moves forward. Therefore, the first turning pin 22 in the treatment section 3 moves backward and the second turning pin 23 moves forward, so that the first treatment piece 12 moves through the second turning plate 21 to the first turning pin. The treatment unit 3 rotates rightward with the support shaft 9 as a fulcrum, and as a result, the entire treatment unit 3 rotates rightward.
[0049]
Conversely, when the first operating body 37 and the second operating body 39 are simultaneously rotated rightward about the second pivot shaft 32 as a fulcrum, the second drive rod is driven via the fourth rotating plate 46. 6 moves forward, and the third drive rod 7 moves backward. Therefore, the first rotation pin 22 in the treatment section 3 moves forward and the second rotation pin 23 retracts, so that the first treatment piece 12 is moved via the second rotation plate 21 to the pivot shaft 9. Is rotated to the left with the fulcrum as a fulcrum. As a result, the entire treatment section 3 rotates to the left.
[0050]
As described above, in the surgical treatment tool 1 of the present embodiment, the first and second treatment pieces 12 and 14 are operated by the first and second operation pieces 37 and 39 in conjunction with the rightward rotation of the first and second operation bodies 37 and 39. The first and second treatment pieces 12 rotate in the left direction while maintaining a state substantially parallel to the first and second operation bodies 37 and 39 while maintaining a state substantially parallel to the first and second operation members 37 and 39. , 14 rotate rightward while maintaining a substantially parallel state with the operating bodies 37, 39. That is, the treatment section 3 can be directed in any direction by turning the first and second operating bodies 37 and 39 up, down, left, and right.
[0051]
By the way, such a rotation operation, that is, the first operation 37 (first grip 37a) and the second operation body 39 (second grip 39a) are simultaneously performed with the second pivot shaft 32 as a fulcrum. The operation of turning left and right can be easily performed inside the palm as shown in FIGS. As described above, in a state where the grips 37a and 39a are gripped by the two fingers 113 and 115, the grips 37a and 39a fit inside the palm, and the sphere 100a of the support 100 hits the palm, and the support 100 is held. This is because it can be supported by the palm. Moreover, in this case, since the central axis O 'of the concave surface 37b and the axis L' extending in the extending direction of the mounting surface 39b are substantially orthogonal to each other, the thumb 113 and the middle finger 115 are respectively set so as to be substantially orthogonal to each other. Oriented. Therefore, unlike the case shown in FIGS. 23 to 25 in which the two fingers are both directed in the same direction and constrained by the finger hooks 206a and 208a, the movement of the finger is not restricted, and The wrist does not need to be largely moved even when the two pivot shafts 32 are rotated left and right about the fulcrum. Therefore, the operability is very good, and it is possible to avoid inconveniences such as forcibly twisting the wrist and making it impossible to proceed as desired.
[0052]
As described above, the operation unit 4 of the surgical treatment tool 1 according to the present embodiment includes the grips 37a and 39a that can be gripped by two fingers and that can be rotated inside the palm, and the two fingers are mutually moved. The grips 37a, 39a are formed with gripping surfaces 37b, 39b oriented along an axis that is substantially orthogonal. Therefore, the two fingers are not both turned and restrained in the same direction only, and the grips 37a and 39a inside the palm can be moved to the second pivot only by the movement of the fingertip without greatly moving the wrist. The support shaft 32 can be rotated left and right about a fulcrum. Therefore, for example, a fine suturing operation can be performed, the fatigue of the operator is reduced, and the operator's concentration is increased. As a result, the operation time can be significantly reduced.
[0053]
In addition, if the grips 37a and 39a in the palm can be rotated with the fingertips as described above, fine control can be performed particularly in the case of suturing thin blood vessels. In cardiac surgery, as shown in FIG. 15, the operation of turning the treatment section 3 right and left at a position where the treatment section 3 is turned substantially at right angles to the insertion section 2 is the most, and this operation is performed only by the movement of the fingertip. It is very useful if you can do it in
[0054]
Further, in the present embodiment, since the drive rods 5, 6, and 7 constituting the link mechanism are exposed to the outside and are exposed, the cleaning property is improved. In particular, in cardiac surgery and the like, since the body cavity is secured by the presence of the ribs, the insufflation work for sending air into the body is unnecessary, and the insertion portion 2 extending outside and inside the body is inserted from the body. It is not necessary to provide an airtight means for preventing air leakage. Therefore, it is possible to improve the cleanability by exposing the link mechanism as in the present embodiment.
[0055]
17 to 19 show a second embodiment of the present invention. Note that, in the present embodiment, the same components as those in the first embodiment are denoted by the same reference numerals, and description thereof is omitted.
[0056]
As shown in FIG. 17, in the present embodiment, a buckling prevention cover 128 for preventing buckling of the drive rods 5, 6, 7 is provided near the center of the insertion section 2. The buckling prevention cover 128 is fixed to the support portion 8 by a set screw 103, and covers the driving rods 5, 6, 7 over the entire circumference.
[0057]
According to such a configuration, even if an unexpected force is applied to the operation unit 4 or the treatment unit 3 to cause the drive rods 5, 6, and 7 to bend, the buckling prevention cover 128 prevents the drive rods 5, 6, and 7. Since the buckling of the drive rod 7 is prevented, the life of the drive rods 5, 6, 7 can be extended. The buckling prevention cover 128 may be provided on the surgical treatment tool 1 according to the first embodiment.
[0058]
Further, in this embodiment, as shown in detail in FIG. 18, the second grip 39a is attached to the second operating body 39 via the grip leaf spring 127. A second finger ring 123 is provided on the second grip 39a. The first grip 37a is provided with a first finger ring 121 and a finger pad 122. In this case, the opening direction of the first finger ring 121 and the opening direction of the second finger ring 123 are substantially orthogonal to each other. The second finger ring 123 may have a circular shape as shown in FIG. 18C, or have a C shape as shown in FIG. 18D. Is also good.
[0059]
Further, a three-stage leaf spring ratchet 124 is provided on the facing surface 37c of the first grip 37a. A one-stage leaf spring ratchet 125 that constitutes a leaf spring ratchet mechanism 126 together with the step leaf spring ratchet 124 is provided.
[0060]
FIG. 19 schematically shows the operation of the leaf spring ratchet mechanism 126. In the state of FIG. 18B in which the leaf spring ratchet mechanism 126 is completely released and the urging force of the spring 127 does not act on the second grip 39a, the treatment section 3 is in a completely closed state. When the second grip 39a is pushed toward the first grip 37a from this state, first, the claw of the first-stage leaf spring ratchet 125 is locked in the first-stage ratchet groove, and the second-stage leaf spring ratchet 125 is in this position. Is fixed (state 1 in FIG. 19). When the second grip 39a is further pushed in from this state 1, the state changes from state 2 in which the claws of the first-stage leaf spring ratchet 125 are sequentially locked in the second and third ratchet grooves, to state 3, The spring force of the grip leaf spring 127 gradually increases. When the second grip 39a is further depressed, the claw of the first-stage leaf spring ratchet 125 comes out of the third-stage ratchet groove 4, and when the gripping force of the second grip 39a is released, the first-stage leaf spring 125 is released. The ratchet 125 is automatically released from the first grip 37a by separating from the first grip 37a as indicated by an arrow in the drawing. When the treatment section 3 is opened, the second grip 39a may be rotated from the state shown in FIG. 18B in a direction to separate the second grip 39a from the first grip 37a.
According to such a configuration, the spring force of the grip leaf spring 127 that is gradually elastically deformed in accordance with the change from the state 1 to the state 4 acts as a gripping force of the closed treatment unit 3. The fine setting of the ratchet as in the first embodiment becomes unnecessary, and the wire diameter D of the suturing needle 111 can have a certain width.
[0061]
As described above, the preferred embodiments of the present invention have been described. However, it is needless to say that the present invention is not limited to the above-described embodiments, and can be variously modified without departing from the gist thereof. For example, in the above-described embodiment, the surgical treatment tool of the present invention is described using a needle holder as an example. However, the present invention is not limited to the needle holder, and a tissue grasping forceps as shown in FIG. The present invention is also applicable to surgical treatment tools such as scissors forceps shown in FIG. When the present invention is applied to the tissue grasping forceps as shown in FIG. 20, the tissue in the depressed portion can be grasped softly and the posture of the treatment section 3 can be easily and easily changed. It does not need to apply unnecessary tension to In addition, when the present invention is applied to the scissors forceps as shown in FIG. 21, the direction of the scissors can be easily and easily changed, so that the usability is improved in the endoscopic surgery having many posture restrictions. In the first embodiment described above, the length of the column 100 is fixed. However, as shown in FIG. 22, the column 100 can be moved with respect to the first grip 37a in the axial direction. May be. In this case, the length of the column 100 can be changed by inserting the column 100 removably into the adjustment hole 152 formed in the first grip 37a and fixing the position of the column 100 with the set screw 150. You may do it. At this time, it is desirable that the length of L3 be changed in a range of, for example, 75 to 115 mm. In the above-described embodiment, the longitudinal axis O4 of the column 100 is eccentric from the axis O3 orthogonal to the second opening / closing pivot pin 38. However, as shown in FIG. 22, these axes O3 and O4 are provided. May match. In this case, the axis O4 of the column 100 does not shift due to the left and right rotation, and the grip during the rotation is more stable.
[0062]
According to the technical contents described above, various configurations as described below can be obtained.
[0063]
1. An insertion portion to be inserted into the body,
A treatment section provided at one end of the insertion section,
An operation unit provided at the other end of the insertion unit and rotatable around one axis;
In a surgical treatment tool provided with
The operation unit includes a grip that can be gripped with two fingers and that can be rotated inside the palm,
The surgical treatment tool according to claim 1, wherein the grip has a grip surface for directing two fingers along axes substantially orthogonal to each other.
[0064]
2. The operation unit includes a pair of the grips that can be opened and closed,
On the outer surface of one of the grips, an arc-shaped first gripping surface on which a finger other than the thumb can be hooked is formed,
On the outer surface of the other grip, a flat rectangular second gripping surface on which the thumb can be placed in its extending direction is formed,
The surgical treatment instrument according to claim 1, wherein a central axis of the first gripping surface and an axis extending in a direction in which the second gripping surface extends are substantially orthogonal to each other.
[0065]
3. An insertion portion to be inserted into the body,
An openable and closable treatment unit provided at one end of the insertion unit, the treatment unit being rotatable around at least two axes;
An openable and closable operation unit provided at the other end of the insertion unit, the operation unit being rotatable around at least two axes;
A drive unit that connects the operation unit and the treatment unit, and transmits an operation force of the operation unit to the treatment unit to operate the treatment unit;
A surgical treatment tool comprising: the operation unit and the treatment unit rotatable in at least two planes.
The operation unit includes a grip that can be gripped with two fingers and that can be rotated inside the palm,
The surgical treatment tool according to claim 1, wherein the grip has a grip surface for directing two fingers along axes substantially orthogonal to each other.
[0066]
4. The operation unit includes a pair of the grips that can be opened and closed,
On the outer surface of one of the grips, an arc-shaped first gripping surface on which a finger other than the thumb can be hooked is formed,
On the outer surface of the other grip, a flat rectangular second gripping surface on which the thumb can be placed in its extending direction is formed,
4. The surgical treatment tool according to claim 3, wherein a central axis of the first gripping surface and an axis extending in the extending direction of the second gripping surface are substantially orthogonal to each other.
[0067]
5. The first mounting surface and the second mounting surface are located on opposite sides to an orthogonal axis orthogonal to the opening / closing axis of the grip,
The surgical operation according to claim 4, wherein a distance between the first mounting surface and the orthogonal axis is substantially equal to a distance between the second mounting surface and the orthogonal axis. Treatment tool.
[0068]
6. 6. The surgical operation according to claim 5, wherein the first grip has a rod-shaped support supported by a palm, and a longitudinal axis of the support is close to or coincident with the orthogonal axis. Treatment tool.
[0069]
7. Further provided is a rotation restricting cover provided on the operation portion side of the insertion portion and abutting against a stopper provided on the operation portion to restrict a rotation range of the operation portion,
The surgical operation according to claim 3, wherein a width of a contact portion of the rotation restricting cover that contacts the stopper is smaller than a width of a base of an insertion portion to which an operation unit is rotatably connected. Treatment tool.
[0070]
8. Two opposing suturing needle gripping surfaces that are provided in the treatment section and grip the suturing needle by opening and closing the treatment section;
A step-by-step opening and closing mechanism for causing the opening and closing of the treatment section to be performed step-by-step, wherein a step-by-step opening and closing mechanism that sets an opening and closing interval between two opposing suturing needle gripping surfaces to be equal to or less than a wire diameter of the suturing needle;
The surgical treatment instrument according to claim 3, further comprising:
[0071]
9. At the assumed gripping position, the radius of the arc passing through the cross-sectional center of the suture needle grasped by the suture needle gripping surface and centering on the opening / closing axis of the grip was defined as r, the diameter of the suture needle was defined as D, and the suture needle was gripped. When the opening angle of the suture needle gripping surface at time is θ2, the opening / closing interval θ1 set by the stepwise opening / closing mechanism is
θ1 <2sin ^-1 (D / 2r) = θ2
9. The surgical treatment instrument according to claim 8, wherein the surgical instrument is provided by:
[0072]
10. 4. The surgical treatment tool according to claim 3, wherein the driving means is exposed to the outside.
[0073]
【The invention's effect】
As described above, according to the present invention, it is possible to provide a surgical treatment tool with good operability that can rotate the operation unit without greatly moving the wrist.
[Brief description of the drawings]
FIG. 1 is a side view showing an overall configuration of a surgical treatment tool according to a first embodiment of the present invention.
FIG. 2 is a perspective view of a treatment section of the surgical treatment tool in FIG. 1 as viewed from above.
FIG. 3 is a perspective view of a treatment section of the surgical treatment tool in FIG. 1 as viewed from below.
FIG. 4 is a perspective view of the operation unit of the surgical treatment tool in FIG. 1 as viewed from above.
5 is a perspective view of the operation unit of the surgical treatment tool in FIG. 1 as viewed from above, with a guard of the operation unit removed.
6 is a perspective view of the operation unit of the surgical treatment tool in FIG. 1 as viewed from below.
FIG. 7 is a sectional view of a grip of the surgical treatment tool in FIG. 1;
8 is a schematic diagram showing the relationship between the pitch setting of the ratchet teeth of the ratchet mechanism provided on the grip shown in FIG. 7 and the dimensions of the treatment section.
9A is a side view showing a state in which the operation unit is vertically oriented, and FIG. 9B is a view in the X direction of FIG. 9A.
10A is a side view showing a state in which the operation unit is horizontally oriented, and FIG. 10B is a view in the Y direction of FIG.
11A is a side view showing a state in which the treatment section and the operation section are vertically oriented, and FIG. 11B is a side view showing a state in which the treatment section and the operation section are horizontally oriented.
12A is a plan view showing a state in which the operation unit and the treatment unit are horizontal, and FIG. 12B is a plan view showing a state in which the operation unit and the treatment unit are rotated left and right.
FIG. 13 is a diagram illustrating an example of a poor gripping state of the treatment unit.
FIG. 14 is a view showing a good example of a gripping state of the treatment section.
FIG. 15 is a view showing a state in which the surgical treatment tool of FIG. 1 is being grasped by a hand to perform treatment.
FIG. 16 is a diagram showing a state in which the operation unit and the treatment unit are rotated left and right from the state of FIG.
FIG. 17 (a) is a side view showing the overall configuration of a surgical treatment tool according to a second embodiment of the present invention, and FIG. 17 (b) is a cross-sectional view taken along the line ZZ of FIG.
18A is an enlarged view of a closed state of a grip of an operation unit of the surgical treatment tool in FIG. 17; FIG. 18B is an enlarged view of an open state of a grip of the operation unit of the surgical treatment tool in FIG. 17; (C) and (d) are views in the R direction of (a).
FIG. 19 is a schematic view for explaining the operation of the ratchet mechanism of the surgical treatment tool in FIG. 17;
FIG. 20 is a perspective view of a distal end portion of the tissue grasping forceps.
FIG. 21 is a perspective view of a distal end portion of the scissors forceps.
FIG. 22 is a side view having a partial cross section according to a modified example of the operation unit of the surgical treatment tool in FIG. 1;
FIG. 23 is a side view showing a state in which the operation unit of the conventional surgical treatment tool is gripped by hand.
FIG. 24 is a perspective view showing a state in which the operation unit has been rotated to the left from the state of FIG. 23;
FIG. 25 is a perspective view showing a state in which the operation unit is rotated rightward from the state of FIG. 23;
[Explanation of symbols]
1. Surgical treatment tool
2 ... insertion part
3 treatment section
4 ・ ・ ・ Operation unit
5, 6, 7 ... drive rod
37a, 39a ... grip
37b: concave surface (grip surface)
39b ... Placement surface (grip surface)

Claims (2)

An insertion portion to be inserted into the body,
A treatment section provided at one end of the insertion section,
An operation unit provided at the other end of the insertion unit and rotatable around one axis;
In a surgical treatment tool provided with
The operation unit includes a grip that can be gripped with two fingers and that can be rotated inside the palm,
The surgical treatment tool according to claim 1, wherein the grip has a grip surface for directing two fingers along axes substantially orthogonal to each other. An insertion portion to be inserted into the body,
An openable and closable treatment unit provided at one end of the insertion unit, the treatment unit being rotatable around at least two axes;
An openable and closable operation unit provided at the other end of the insertion unit, the operation unit being rotatable around at least two axes;
A drive unit that connects the operation unit and the treatment unit, and transmits an operation force of the operation unit to the treatment unit to operate the treatment unit;
A surgical treatment tool comprising: the operation unit and the treatment unit rotatable in at least two planes.
The operation unit includes a grip that can be gripped with two fingers and that can be rotated inside the palm,
The surgical treatment tool according to claim 1, wherein the grip has a grip surface for directing two fingers along axes substantially orthogonal to each other.

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