JP2004305589A - Ultrasonic treating apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an ultrasonic treating apparatus with a good operability by keeping a grasping load from working on an operating force transmission member from a jaw with a simple structure. <P>SOLUTION: In an ultrasonic treating tool 2 making up the ultrasonic treating apparatus, a support member 71 is securely installed on the bottom part on the tip side of an opening part of a body 52a of a holding part (cannula 4 of the insertion part) near the first node of the ultrasonic vibration of a vibration transmission member 9. As the result, in the ultrasonic treating tool 2, when the living body tissues are grasped, the vibration transmission member 9 is supported by the support member 71 against the grasping load subjected to the treating part 41f (ultrasonic probe) in the neighborhood of the first node position to keep a tubular manipulation rod 50 from bringing it into contact with the vibration transmission member 9. Thus, the ultrasonic treating instrument 2 generates no friction neither between the vibration transmission member 9 and the tubular manipulation rod 50 nor between the tubular manipulation rod 50 and the cannula 4 of the insertion part otherwise caused by the grasping load subjected to the treating part 41f. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an ultrasonic treatment apparatus that performs ultrasonic treatment such as incision, excision, or coagulation of a living tissue while grasping the living tissue.
[0002]
[Prior art]
In general, an ultrasonic treatment apparatus performs ultrasonic treatment such as incision, excision, or coagulation on a living tissue.
In such an ultrasonic treatment apparatus, an operation unit on the hand side is connected to a base end portion of an insertion tube, and an ultrasonic vibrator that generates ultrasonic vibration is provided in the operation unit. An ultrasonic probe for treating a living tissue is disposed at the distal end of the mantle tube.
[0003]
Further, in the ultrasonic treatment apparatus, a vibration transmitting member for transmitting ultrasonic vibration from the ultrasonic transducer to the ultrasonic probe is inserted into the insertion portion outer tube. The proximal end of the vibration transmitting member is connected to the ultrasonic vibrator. Further, the ultrasonic treatment apparatus is provided with a jaw rotatably supported opposite the ultrasonic probe.
Further, in the ultrasonic treatment apparatus, a movable handle for opening and closing the jaw with respect to the ultrasonic probe is provided in the operation unit. Further, an operation force transmitting member for transmitting an operation force from the movable handle to the jaw is inserted into the inside of the insertion portion outer tube so as to be able to advance and retreat in the axial direction.
[0004]
In the ultrasonic treatment apparatus, the operating force transmitting member is moved forward and backward in the axial direction in accordance with the operation of the movable handle, and the jaw is closed with respect to the ultrasonic probe in conjunction with the forward / backward movement of the operating force transmitting member. Accordingly, the living tissue is grasped between the ultrasonic probe and the jaw.
Subsequently, in this state, the ultrasonic treatment apparatus transmits the ultrasonic vibration from the ultrasonic transducer to the ultrasonic probe via the vibration transmission member, and incises, cuts, and removes the grasped living tissue. Alternatively, an ultrasonic treatment such as coagulation is performed.
[0005]
As described in, for example, US Pat. No. 6,214,023, such a conventional ultrasonic treatment apparatus inserts a vibration transmitting member into a tubular operating force transmitting member such that the vibration transmitting member can advance and retreat, and is inserted into an insertion portion outer tube. An arrangement has been proposed.
[0006]
[Patent Document 1]
US Pat. No. 6,214,023
[Problems to be solved by the invention]
However, the ultrasonic treatment apparatus described in the above-mentioned US Pat. No. 6,214,023 has a tubular operation by receiving a lateral gripping load from the jaw to the ultrasonic probe when the handle is closed and the jaw is closed. When the vibration transmission member comes into strong contact with the force transmission member, friction occurs between them.
Then, the friction between the tubular operating force transmitting member and the vibration transmitting member and the outer tube of the insertion portion increases, and the force is absorbed at that portion, and it becomes difficult to transmit the operating force to the jaw.
Therefore, it is necessary for the ultrasonic treatment apparatus to prevent the gripping load from the jaw from being applied to the tubular operating force transmitting member.
[0008]
For this reason, the conventional ultrasonic treatment apparatus is formed of a low friction material at a position corresponding to the position of the node of the ultrasonic vibration of the vibration transmitting member inserted and disposed in the tubular operating force transmitting member. It is conceivable to provide a support member. However, in the above method, since the positions of the second and subsequent nodes are separated from the distal end side, the supporting member must be attached to a thin portion of the tubular operating force transmitting member, and this fixing is difficult.
[0009]
On the other hand, in the conventional ultrasonic treatment apparatus, on the other hand, a resin support member is welded and provided at a position of a node of ultrasonic vibration of a vibration transmission member inserted and disposed in a tubular operation force transmission member. Can be considered. However, in the above method, the welded resin support member is easily dropped off, and is inferior in durability. In addition, the types of resin-made materials that can be welded are limited, and friction tends to increase, and this tends to occur.
[0010]
The present invention has been made in view of these circumstances, and provides an ultrasonic treatment apparatus having a simple structure, high durability, and good operability without a gripping load from a jaw being applied to an operation force transmitting member. The purpose is to do.
[0011]
[Means for Solving the Problems]
An ultrasonic treatment apparatus according to claim 1 of the present invention is connected to an ultrasonic vibrator, and transmits an ultrasonic vibration generated by the ultrasonic vibrator to a distal end side; An ultrasonic probe that is connected to the distal end side and treats a living tissue by ultrasonic vibration transmitted from the vibration transmitting member, and is rotatably supported in opposition to the ultrasonic probe. A jaw for grasping a living tissue, operating means for opening and closing the jaw with respect to the ultrasonic probe, and a vibration transmitting member inserted and disposed in a tubular shape, between the jaw and the operating means. And an operating force transmitting member for transmitting an operating force from the operating means to the jaw, and an insertion portion outer tube that covers the operating force transmitting member and is provided with the jaw on the distal end side. When grasping tissue A support member for supporting the vibration transmitting member is provided at least in the vicinity of the position of the first node of the ultrasonic vibration with respect to the vibration transmitting member receiving the load when the ultrasonic probe receives the gripping load from the jaw. It is characterized in that it is provided on the insertion portion outer tube.
Further, the ultrasonic treatment apparatus according to claim 2 of the present invention is connected to an ultrasonic transducer, and transmits an ultrasonic vibration generated by the ultrasonic transducer to a distal end side, and the vibration transmission member. An ultrasonic probe that is connected to the distal end side of the member and treats a living tissue by ultrasonic vibration transmitted from the vibration transmitting member, and is rotatably supported in opposition to the ultrasonic probe. A jaw for grasping a living tissue, operating means for opening and closing the jaw with respect to the ultrasonic probe, and a vibration transmitting member formed in a tubular shape, and the jaw and the operating means An operating force transmitting member that transmits an operating force from the operating means to the jaw by connecting the jaws, an insertion portion outer tube that covers the operating force transmitting member and is provided with the jaw on the distal end side, Control drive of vibrator And a driving circuit for supporting the vibration transmitting member with respect to the vibration transmitting member, which receives a load when the ultrasonic probe receives a gripping load from the jaw when gripping a living tissue. Is provided on the outer tube of the insertion portion at least near the position of the first node of the ultrasonic vibration.
With this configuration, it is possible to realize an ultrasonic treatment apparatus having good operability with a simple structure in which a gripping load from the jaw is not applied to the operation force transmitting member.
[0012]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
(First Embodiment)
FIGS. 1 to 6 relate to a first embodiment of the present invention. FIG. 1 is an overall configuration diagram showing an ultrasonic treatment apparatus according to the first embodiment. FIG. 3 is a side view showing a disassembled state of the ultrasonic treatment device of FIG. 1, FIG. 4 is a side view showing an assembled state of the entire ultrasonic treatment device of FIG. 1, and FIG. 5 is an internal configuration of a treatment unit. FIG. 6 is a sectional view taken along line AA of the treatment section in FIG.
[0013]
As shown in FIG. 1, in an ultrasonic treatment apparatus 1 of the present embodiment, an ultrasonic treatment instrument 2 and a foot switch 3 are connected to an apparatus main body 1A.
In the ultrasonic treatment instrument 2, a treatment section 5 is provided at a distal end of an elongated sheath-shaped insertion tube 4, and an operation section 6 at a proximal end is provided at a proximal end. Here, the operation unit 6 has a built-in ultrasonic vibrator (not shown) for generating ultrasonic vibration, and is provided with an operation handle 8 for operating the treatment unit 5.
Further, a vibration transmitting member 9 for transmitting the ultrasonic vibration from the ultrasonic vibrator to the treatment section 5 is disposed inside the insertion portion outer tube 4. The distal end of the vibration transmitting member 9 is exposed to the outside from the distal end of the insertion portion outer tube 4.
[0014]
The operation panel 12 is provided on the front of the apparatus main body 1A. The operation panel 12 is provided with a power switch 13, an operation display panel 14, and an ultrasonic treatment instrument connection unit 15. Here, one end of the handpiece cord 16 is connected to the operation unit 6 of the ultrasonic treatment instrument 2. The handpiece plug 17 provided at the other end of the handpiece cord 16 is detachably connected to the ultrasonic treatment instrument connection portion 15 of the apparatus main body 1A.
[0015]
The operation display panel 14 of the apparatus main body 1A includes a setting switch 18 for setting the magnitude of the ultrasonic output during normal operation when performing the ultrasonic treatment, and a magnitude of the ultrasonic output set by the setting switch 18. And a display unit 19 for digitally displaying the result. The setting switch 18 is provided with an output increase switch 18a for changing (increase / decrease) the magnitude of the ultrasonic output and an output decrease switch 18b.
[0016]
Further, as shown in FIG. 2, the apparatus main body 1A includes a drive circuit 20 for supplying electric energy to the ultrasonic vibrator in the ultrasonic treatment instrument 2.
The drive circuit 20 includes an oscillation circuit 21 that generates an AC signal having an ultrasonic frequency, a D / A converter 22 that generates a signal indicating the magnitude of the ultrasonic output, and a signal from the D / A converter 22. A VCA circuit 23 for controlling the magnitude of the AC signal of the oscillation circuit 21 based on the output of the VCA circuit 23; and a power amplifier 24 for amplifying the output of the VCA circuit 23 and generating electric power for driving the ultrasonic transducer in the ultrasonic treatment instrument 2. , A relay 25 for turning on and off the output line of the drive circuit 20, a control circuit 26 for controlling the operation of the ultrasonic treatment apparatus 1, and an interface (I) for transmitting an operation signal from the foot switch 3 to the control circuit 26 and the relay 25. / F) circuit 27 is provided.
[0017]
Further, the control circuit 26 increases the ultrasonic output from the ultrasonic transducer in the ultrasonic treatment instrument 2 at the start of the ultrasonic treatment by operating the foot switch 3 than the output value set by the setting switch 18, and An operation state switching means for controlling the ultrasonic output from the ultrasonic vibrator to become the set output value when a predetermined time set in advance elapses after the start of the treatment is incorporated. In addition, the relay 25 of the drive circuit 20 is interposed between the ultrasonic treatment instrument connection unit 15 and the power amplifier 24.
[0018]
The ultrasonic treatment instrument 2 can be disassembled into three units as shown in FIGS. That is, it is composed of a handle unit 31, a probe unit 32, and a transducer unit 33. These three units 31 to 33 are assembled in a state shown in FIG.
[0019]
The vibrator unit 33 is provided with a handpiece 34 that is detachably connected to the handle unit 31. The handpiece 34 incorporates an ultrasonic vibrator (not shown) for generating ultrasonic vibration in a cylindrical cover 34a.
A horn (not shown) for expanding the amplitude is connected to the distal end of the ultrasonic transducer, and the proximal end of the probe unit 32 is attached to the distal end of the horn.
[0020]
The cylindrical cover 34a is provided at its distal end with a unit connecting portion 34b that is detachably connected to a vibrator connecting portion 6b of an operating portion main body 6a of the handle unit 31 described later. An engagement ring 39 (a so-called C-ring) having a C-shape in which a part of the ring is cut off is mounted on an outer peripheral surface of the unit connecting portion 34b. The engaging ring 39 has a substantially half-moon cross section whose outer periphery is an arc.
The rear end of the cylindrical cover 34a is connected to a handpiece cord 16 having a handpiece plug 17 at the end.
[0021]
Further, the probe unit 32 is provided with an elongated, substantially rod-shaped vibration transmission member 9 which is detachably connected to a tip end of a horn (not shown) in the transducer unit 33.
[0022]
At the base end of the vibration transmitting member 9, a mounting screw 41a connected to the probe mounting portion of the horn is formed. The mounting screw 41a is screwed and fixed in a screw hole of a probe mounting portion of the transducer unit 33. Thus, the probe unit 32 and the transducer unit 33 are integrally assembled.
Further, the vibration transmitting member 9 is provided with a flange-shaped protruding portion 41b so as to protrude at a plurality of positions (nodes) of the standing wave of the ultrasonic vibration transmitted from the base end.
[0023]
Further, in the vibration transmitting member 9 of the present embodiment, a base-side horn 41c that performs a second-stage amplitude expansion is provided in front of the second node from the base end. Further, an intermediate portion 41d for transmitting ultrasonic vibration, a distal horn 41e for finally increasing the amplitude, and a treatment section 41f (ultrasonic probe) are sequentially disposed on the distal end side of the proximal horn 41c. I have. Here, the treatment section 41f arranged at the foremost portion of the vibration transmission member 9 is formed, for example, in a substantially columnar shape.
[0024]
Further, the handle unit 31 includes an elongated insertion sheath portion 31a, a distal end working portion 31b disposed at a distal end portion of the insertion sheath portion 31a, and an operation portion 6 disposed at a base end portion of the insertion sheath portion 31a. Consists of Here, the operation unit 6 of the handle unit 31 is provided with a substantially cylindrical operation unit main body 6a. A vibrator connecting portion 6b is formed at the base end of the operation portion main body 6a.
[0025]
The operation unit body 6a is provided with a fixed handle 42 and a rotatable movable handle 43 constituting an operation means on the outer peripheral surface, and the fixed handle 42 and the movable handle 43 are used to operate the operation handle 8 (see FIG. 1). Is configured.
The operation section main body 6a is provided with an electrode pin 44 for high frequency connection to which a high frequency power supply device (not shown) is connected.
[0026]
The upper portion of the fixed handle 42 is formed integrally with the cylindrical operation portion main body 6a. Further, the operation end of the fixed handle 42 is provided with a finger hole 42a for selectively inserting a plurality of fingers other than the thumb, and the operation end of the movable handle 43 is provided with a finger hole 43a for hanging the thumb of the same hand. ing.
[0027]
Further, a bifurcated connecting portion 43b is formed at the upper end of the movable handle 43. These bifurcated connecting portions 43b are arranged on both sides of the operation portion main body 6a. Further, a handle pivot shaft 45 is provided at the upper end of each connecting portion 43b so as to project inward. These handle pivot shafts 45 are connected to the operation unit main body 6 a above the axis of the insertion unit outer tube 4. The movable handle 43 is pivotally supported by a handle pivot shaft 45. The handle pivot 45 is provided with an insulating cap for high-frequency insulation.
[0028]
Further, an operating shaft 47 is provided below the handle pivot shaft 45 in each connecting portion 43 b of the movable handle 43. The operating shaft 47 is for transmitting an operating force to an operating rod 50 (see FIG. 5: operating force transmitting member) inserted through the insertion portion outer tube 4. In the present embodiment, the operation rod 50 is formed in a tubular shape as described later.
[0029]
The operation rod 50 causes the later-described jaw 51 to perform an opening / closing operation on the treatment section 41f by an operation of moving back and forth in the axial direction. That is, the movable handle 43 and the operating shaft 47 constitute operating means. The operating shaft 47 is arranged substantially on the axis of the insertion portion mantle tube 4.
In the present embodiment, when the ultrasonic treatment device 2 grasps the handle and closes the movable handle 43, the operating shaft 47 moves forward, thereby pushing the operation rod 50 forward, and the ultrasonic treatment device 2 The jaws 51 are configured to close.
[0030]
As described above, the insertion sheath portion 31a is provided with the insertion portion outer tube 4, and the base end of the insertion portion outer tube 4 is attached to the distal end portion of the operation portion main body 6a together with the rotary knob 48. It is attached so as to be rotatable around the center line of the body 6a. Here, the insertion portion outer tube 4 is formed by attaching an insulating tube 49 to the outer periphery of a metal tube (not shown). The insulating tube 49 is provided so as to cover most of the outer peripheral surface of the insertion portion outer tube 4 up to the base end.
[0031]
In the handle unit 31, a one-sided jaw 51 for gripping a living tissue is rotatably attached to the distal end working portion 31b. An operation rod 50 is connected to the jaw 51 as described later.
The jaw 51 is provided with a gripping member 54 on the distal end side. Specifically, the jaw 51 is integrally connected and attached so as to sandwich the gripping member 54.
[0032]
The gripping member 54 has substantially sawtooth-shaped teeth 55 formed on both side edges of a contact surface that contacts the living tissue. The gripping member 54 is made of a low friction material such as PTFE (Teflon: trade name of DuPont). Further, the gripping member 54 may be swingably attached. In this case, since the rigidity of the single body is poor, the rigidity may be secured by attaching a metal strength member (not shown).
[0033]
The insertion portion mantle tube 4 is provided with a jaw holding portion 52 for holding the jaw 51 at a distal end thereof. The jaw holding portion 52 has a substantially tubular holding portion main body 52a having a distal end covered with an insulating cover 53 to provide insulation against high-frequency current. Further, the jaw 51 is provided with a gripping member 54 for gripping the above-described living tissue (organ).
[0034]
Next, a detailed configuration of the treatment section 5 will be described with reference to FIGS.
FIG. 5 is a side sectional view showing the internal configuration of the treatment section 5, and FIG. 6 is an AA sectional view of the treatment section 5 in FIG. 5 and 6 show a state in which the insulating cover 53 has been removed.
[0035]
As shown in FIGS. 5 and 6, the operation rod 50 is formed in a tubular shape, and is inserted into the insertion portion outer tube 4 so as to be able to advance and retreat. The vibration transmission member 9 of the probe unit 32 is inserted through the operation rod 50. Note that the operation rod 50 is disposed with a gap formed with respect to the inner surface of the insertion portion outer tube 4.
[0036]
The jaw 51 is rotatably attached to the distal end of the holding portion main body 52 a of the insertion portion outer tube 4 via a pivot 60. The pivot shaft 60 is formed so as to protrude from both side surfaces of the jaw 51, and is inserted into a pivot hole 60a of the holding portion main body 52a. The pivot shaft 60 may be formed by forming a pivot hole in the jaw 51 and inserting a pivot pin (not shown) through the pivot hole 60a of the holding portion main body 52a.
[0037]
The jaw 51 is rotatably connected to the distal end connecting portion 50 a of the operation rod 50 by an engagement shaft 61 above the pivot shaft 60. In the present embodiment, the engagement shaft 61 is configured by inserting an engagement pin 61c into the engagement hole 61a of the jaw 51 and the engagement hole 61b of the holder main body 52a.
Therefore, when the operation rod 50 advances and retreats, the jaw 51 connected to the operation rod 50 by the engagement shaft 61 rotates (opens and closes) about the pivot shaft 60.
[0038]
When the jaw 51 is closed, the living tissue is gripped between the treatment section 41f and the gripping member 54 by pressing the gripping member 54 of the jaw 51 against the treatment section 41f of the probe unit 32. At this time, the grasping member 54 contacts the grasped living tissue over the entire surface. Then, the grasped living tissue is subjected to ultrasonic treatment such as coagulation or incision by frictional heat with the treatment portion 41f vibrating at a high speed. In addition, the jaw 51 is also used for exfoliating a living tissue.
[0039]
Here, when the living tissue is grasped by the treatment section 5, a grasping load from above is applied from the jaw 51 to the treatment section 41f (ultrasonic probe).
As a result, the vibration transmitting member 9 receives an upward reaction force from the support member at the position of the first node of the ultrasonic vibration, and receives a downward reaction force from the support member at the position of the second node.
[0040]
Therefore, in the present embodiment, a support member for supporting the vibration transmission member 9 is provided in the vicinity of the position of the first node of the ultrasonic vibration where the largest reaction force is generated, in the insertion portion outer tube 4.
That is, the ultrasonic treatment instrument 2 includes a PTFE or the like on the distal end side bottom of the opening of the holding portion main body 52a (the insertion portion outer tube 4) which is near the position of the first node of the ultrasonic vibration of the vibration transmitting member 9. A support member 71 made of a low friction material is provided by being adhered and fixed. The support member 71 is formed to extend in a U-shape from the bottom to the side of the opening of the holding portion main body 52 a (the insertion portion outer tube 4), and the ultrasonic vibration of the vibration transmission member 9. , And also has the function of bearing the pivot 60 of the jaw 51.
[0041]
Thus, when the living tissue is grasped by the distal treatment section of the ultrasonic treatment instrument 2, the vibration transmitting member 9 is supported by the support member 71 near the first node position of the ultrasonic vibration, and the treatment section 41f (ultra Since the reaction force to the grip load applied to the acoustic probe) is received from the insertion tube 4 via the support member 71, no load is applied to the tubular operation rod 50.
In addition, the ultrasonic treatment device 2 is provided with the support member 71 engaged with the pivot 60 of the jaw 51 at the bottom of the distal end side of the opening of the holding portion main body 52a (the insertion portion outer tube 4). Is easy.
[0042]
The ultrasonic treatment apparatus 1 configured as described above can effectively perform ultrasonic treatment such as incision, excision, or coagulation on a living tissue.
The operator grasps the fixed handle 42 of the handle unit 31 and operates the movable handle 43. Then, by operating the movable handle 43, the operation rod 50 advances and retreats in the insertion sheath portion 31a, and opens and closes the jaw 51 of the distal end working portion 31b.
[0043]
Here, the operator holds the handle and closes the movable handle 43. In this case, the operating shaft 47 moves in the distal direction. Then, the movement of the operating shaft 47 is transmitted to the operation rod 50 and acts in a direction to close the jaws 51 of the distal end working portion 31b.
As a result, the jaw 51 grips the living tissue between the jaw 51 and the treatment section 41f by pressing the grasping member 54 against the treatment section 41f of the probe unit 32.
[0044]
Here, the ultrasonic treatment instrument 2 receives a grasping load from above on the treatment section 41f (ultrasonic probe) from the jaw 51 when grasping the living tissue as described above. In the vicinity of the position of the node, the support member 71 attached to the insertion tube 4 generates a reaction force against the grip load received by the treatment section 41f (ultrasonic probe).
[0045]
For this reason, in the ultrasonic treatment instrument 2, since the vibration transmitting member 9 does not contact the tubular operation rod 50, the grip load received by the treatment section 41 f (ultrasonic probe) is not applied to the tubular operation rod 50. .
Then, the operator steps on the foot switch and performs ultrasonic treatment on the grasped living tissue. Then, the grasped living tissue is subjected to ultrasonic treatment by frictional heat with the treatment section 41f vibrating at a high speed.
[0046]
At this time, since the support member 71 is formed of a low friction material such as PTFE at this time, the ultrasonic treatment device 2 does not hinder the ultrasonic vibration of the vibration transmission member 9 and satisfactorily treats the treatment portion 41f (ultrasonic probe). Ultrasonic vibration can be transmitted to
As a result, the ultrasonic treatment apparatus 1 of the present embodiment can configure the ultrasonic treatment instrument 2 having a simple structure and in which the gripping load from the jaw 51 is not applied to the tubular operation rod 50.
[0047]
(Second embodiment)
7 to 10 relate to a second embodiment of the present invention. FIG. 7 is an explanatory view of a main part of an ultrasonic treatment tool constituting an ultrasonic treatment apparatus according to the second embodiment, and FIG. 7 is an enlarged view of a main part showing a first modified example of the second support member, FIG. 9 is an enlarged view of a main part showing a second modified example of the second support member, and FIG. 10 shows a further modified example. FIG. 10A is an explanatory view showing a third modification of the second support member, and FIG. 10B is an explanatory view showing a fourth modification of the second support member. FIG. 10C is an explanatory view showing a fifth modification of the second support member.
[0048]
In the second embodiment, in addition to the configuration of the first embodiment, a second support member is provided at the position of the second node of the ultrasonic vibration. The other configuration is almost the same as that of the first embodiment, so that the description is omitted, and the same configuration is denoted by the same reference numeral.
[0049]
As shown in FIG. 7, in the ultrasonic treatment apparatus according to the second embodiment, in addition to the configuration of the first embodiment, a second support member is provided at the position of the second node of the ultrasonic vibration. To constitute an ultrasonic treatment instrument.
More specifically, the ultrasonic treatment device is provided with a support member 71 on the distal end side bottom of the opening of the holding portion main body 52a (the insertion portion outer tube 4) in the same manner as described in the first embodiment. In addition to the above, the second support member 72 is provided on the outer sheath 4a of the insertion tube 4 at the position of the second node of the ultrasonic vibration.
[0050]
The second support member 72 is made of a low-friction material such as PTFE similarly to the support member 71, and is inserted into the insertion portion outer jacket so as to project through a through portion 73 formed in the tubular operation rod 50. It is provided on the inner peripheral surface of the outer sheath 4a of the tube 4 by adhesive bonding. This is because, as described in the first embodiment, when the living tissue is grasped, the vibration transmitting member 9 generates a load upward at the position of the second node of the ultrasonic vibration. In order to counteract
[0051]
Thus, when the living tissue is grasped, the vibration transmitting member 9 is supported by the supporting member 71 near the position of the first node of the ultrasonic vibration in the same manner as described in the first embodiment. In addition, in order to counter the load generated by the action of the seesaw (the principle of leverage) using the first support member 71 as a fulcrum, the vibration transmission member 9 is supported by the second support at the position of the second node of the ultrasonic vibration. It can be supported by the member 72.
[0052]
Further, in the present embodiment, the ultrasonic treatment instrument has the flange-shaped protrusions 41b formed at the positions (a plurality of positions) of the third and subsequent nodes, and the ultrasonic treatment tool has a tubular shape with respect to these flange-shaped protrusions 41b. Of the operating rod 50 is covered with a covering member 74 made of a low friction material such as PTFE, for example.
[0053]
Since the vibration transmitting member 9 is mainly supported by the support member 71 and the second support member 72 when the living tissue is gripped, the load generated at the third and subsequent nodes (a plurality of positions) is supported. Is small. For this reason, by providing the covering member 74, the ultrasonic treatment instrument can reduce the frictional resistance of the portion that slides while supporting the vibration transmission member 9.
[0054]
In the present embodiment, a penetrating portion 75 is formed in the covering member 74 so that the second support member 72 penetrates.
The manufacturing method is, for example, as described below.
First, the tubular operation rod 50 has a penetrating portion 73 formed at a position corresponding to the position of the second node of the ultrasonic vibration. Similarly, the covering member 74 also has a penetrating portion 75 formed at a position corresponding to the position of the second node of the ultrasonic vibration.
[0055]
Then, the coating member 74 is inserted into the operation rod 50 by pulling one end thereof, and is inserted and disposed so as to be positioned and installed inside the operation rod 50.
Next, the tubular operation rod 50 is inserted into the outer sheath 4a of the insertion portion outer tube 4, and is positioned and inserted and disposed.
[0056]
Then, the second support member 72 to which the adhesive is applied is inserted from the opening side of the operation rod 50 by a jig (not shown), and the insertion portion outer tube becomes the position of the second node of the ultrasonic vibration from the through portion 73. 4 is guided to a predetermined position of the outer sheath 4a, and is adhered and fixed at this position.
Thereby, the ultrasonic treatment instrument can provide the second support member 72 at a predetermined position of the outer sheath 4a of the insertion portion mantle tube 4 which is the position of the second node of the ultrasonic vibration of the vibration transmission member 9. .
[0057]
Therefore, the ultrasonic treatment device has the vibration transmitting member 9 attached to the insertion portion outer tube 4 at the position of the second node of the ultrasonic vibration that supports the load generated by the load applied to the treatment portion 41f. It can be supported by the member 72.
As a result, in addition to obtaining the same effects as those of the first embodiment, the ultrasonic treatment apparatus according to the second embodiment further has a tubular operating rod It is possible to reduce the friction generated at 50.
[0058]
As shown in FIG. 8, the ultrasonic treatment instrument forms a flange-shaped enlarged portion 41b at the position of the second node of the ultrasonic vibration, and the second expanded portion 41b at the position of the second node. May be configured so that the supporting member 72 is in contact with the supporting member 72.
[0059]
Further, in the ultrasonic treatment instrument, as shown in FIG. 9, the second support member 72 does not penetrate the covering member 74 of the tubular operation rod 50, and the flange at the position of the second node is provided through the covering member 74. You may comprise so that it may contact the shape expansion part 41b.
Note that the second support member 72 fits and fixes the fixing portion 72b from inside the outer sheath 4a of the insertion portion outer tube 4 without using an adhesive.
[0060]
Further, the second support member has many modified examples as shown in FIG. 10, for example.
As shown in FIG. 10A, a second supporting member 81 as a third modification fits a fixing portion 81 a from outside a concave portion 4 b formed on an outer peripheral surface of an outer sheath 4 a of an insertion portion mantle tube 4. And fix them together.
[0061]
On the other hand, as shown in FIGS. 10 (b) and 10 (c), the outer sheath 4a of the insertion portion mantle tube 4 does not form a concave portion on the outer peripheral surface thereof, and the second and fourth modified examples are the fourth and fifth modified examples. Are attached.
As shown in FIG. 10B, the second support member 83 according to the fourth modification fits and fixes the fixing portion 83 a from the outer peripheral surface of the outer sheath 4 a of the insertion portion outer tube 4. ing. Further, as shown in FIG. 10C, a second supporting member 84 as a fifth modification is fitted with a small-diameter fixing portion 84a from the outer peripheral surface of the outer sheath 4a of the insertion portion mantle tube 4 and bonded thereto. Fix it.
In addition, you may comprise so that a 2nd support member may be attached by a structure other than the above.
[0062]
By the way, the conventional ultrasonic treatment apparatus has an ultrasonic treatment tool in which the fulcrum of the jaw is located farther from the distal end than the first node of the ultrasonic vibration on the distal end side of the treatment section.
In such a conventional ultrasonic treatment instrument, when the jaw is closed and the living tissue is grasped between the ultrasonic probe and the ultrasonic probe, the starting point of the bending of the ultrasonic probe is separated from the fulcrum of the jaw. In this case, in the ultrasonic treatment instrument, since the bending of the ultrasonic probe does not follow the rotation angle of the jaw, the contact surface between the jaw and the ultrasonic probe with respect to the grasped living tissue is not parallel.
[0063]
For this reason, there is a conventional ultrasonic treatment instrument in which a gripping member is configured to be swingable as a follow-up structure of a jaw to an ultrasonic probe. However, the ultrasonic treatment device in which the gripping member is configured to be swingable has a complicated structure and a high cost.
Therefore, it has been desired to provide an ultrasonic treatment apparatus in which when the ultrasonic probe is bent, the rotation angle of the jaw approaches the inclination of the ultrasonic probe to eliminate the need for a follow-up mechanism.
[0064]
A configuration example of the ultrasonic treatment apparatus will be described with reference to FIGS.
11 to 14 relate to a configuration example of the ultrasonic treatment apparatus. FIG. 11 is a side cross-sectional view showing a treatment section of an ultrasonic treatment instrument included in the ultrasonic treatment apparatus. FIG. B sectional view, FIG. 13 is a side sectional view showing a treatment section of an ultrasonic treatment instrument having a structure using a rod-shaped operation rod, and FIG. It is sectional drawing.
[0065]
As shown in FIG. 11, in the ultrasonic treatment apparatus, the base end side of the jaw 51 is extended to position the pivot 60 of the jaw 51 near the position of the first node of the ultrasonic vibration in the vibration transmitting member 9. It is configured by providing an ultrasonic treatment instrument 2B. The two-dot chain line (imaginary line) indicates a conventional ultrasonic treatment device.
In the ultrasonic treatment device 2B, a support member 71B substantially similar to that described in the first embodiment is provided at the bottom on the distal end side of the opening of the holding portion main body 52a (the insertion portion outer tube 4). .
[0066]
The support member 71B is, as shown in FIG. 12, the distal end side of the opening of the holding portion main body 52a (the insertion portion outer tube 4) so as to support only near the position of the first node of the ultrasonic vibration in the vibration transmission member 9. It is formed only on the bottom. This is for simplicity.
Thereby, when the treatment section 41f (ultrasonic probe) bends, the ultrasonic treatment instrument 2B keeps the rotational angle of the jaw 51 close to the inclination of the treatment section 41f (ultrasonic probe) to maintain a parallel positional relationship. can do.
[0067]
In the ultrasonic treatment device, in the structure using the rod-shaped operation rod, the pivot 60 of the jaw 51 is positioned near the position of the first node of the ultrasonic vibration in the vibration transmission member 9 as shown in FIG. You may comprise so that it may be.
As shown in FIG. 13, in the ultrasonic treatment instrument 2C, the vibration transmission member 9 is inserted through a main channel tube 90a provided in the holding portion main body 52a, and the main channel tube 90a is formed in the holding portion main body 52a of the insertion portion outer tube 4. A rod-like operation rod 50B is inserted and arranged in a sub-channel 90b formed between the insertion tube 4 and the insertion portion outer tube 4.
[0068]
The ultrasonic treatment device 2C protects the lower side of the vibration transmitting member 9 by extending the holding portion main body 52a (the insertion portion outer tube 4).
[0069]
In FIG. 13, the ultrasonic treatment instrument 2C integrally forms the holding portion main body 52a as the distal end side of the insertion portion outer tube 4, but as shown in FIG. Alternatively, a holding unit main body 91 may be provided separately.
[0070]
Accordingly, the ultrasonic treatment instrument 2C can position the pivot 60 of the jaw 51 near the position of the first node of the ultrasonic vibration in the vibration transmission member 9 even in the structure using the rod-shaped operation rod 50B. When the treatment section 41f (ultrasonic probe) bends, the rotation angle of the jaw 51 can be made closer to the inclination of the treatment section 41f (ultrasonic probe) to maintain a parallel positional relationship.
[0071]
Note that the present invention is not limited to the above-described embodiment, and various changes and modifications can be made without departing from the scope of the present invention.
[0072]
[Appendix]
(Additional Item 1) A vibration transmitting member connected to the ultrasonic vibrator and transmitting the ultrasonic vibration generated by the ultrasonic vibrator to the distal end side,
An ultrasonic probe connected to the distal end side of the vibration transmission member and treating a living tissue with the ultrasonic vibration transmitted from the vibration transmission member,
A jaw that is rotatably supported in opposition to the ultrasonic probe and holds a living tissue between the ultrasonic probe and
Operating means for opening and closing the jaw with respect to the ultrasonic probe,
An operating force transmitting member that is formed in a tubular shape and the vibration transmitting member is inserted and disposed, and that connects the jaw and the operating means to transmit an operating force from the operating means to the jaw;
An insertion portion outer tube that covers the operation force transmitting member and has the jaw provided on the distal end side;
With
When the living body tissue is gripped, the ultrasonic probe receives a gripping load from the jaw when receiving the gripping load. For the vibration transmitting member, a supporting member for supporting the vibration transmitting member is at least the ultrasonic vibration. An ultrasonic treatment apparatus provided on the outer tube of the insertion portion near the position of the first node.
[0073]
(Additional Item 2) A vibration transmitting member connected to the ultrasonic vibrator and transmitting the ultrasonic vibration generated by the ultrasonic vibrator to the distal end side,
An ultrasonic probe connected to the distal end side of the vibration transmission member and treating a living tissue with the ultrasonic vibration transmitted from the vibration transmission member,
A jaw that is rotatably supported in opposition to the ultrasonic probe and holds a living tissue between the ultrasonic probe and
Operating means for opening and closing the jaw with respect to the ultrasonic probe,
An operating force transmitting member that is formed in a tubular shape and the vibration transmitting member is inserted and disposed, and that connects the jaw and the operating means to transmit an operating force from the operating means to the jaw;
An insertion portion outer tube that covers the operation force transmitting member and has the jaw provided on the distal end side;
A drive circuit for controlling and driving the ultrasonic transducer,
With
When the living body tissue is gripped, the ultrasonic probe receives a gripping load from the jaw when receiving the gripping load. For the vibration transmitting member, a supporting member for supporting the vibration transmitting member is at least the ultrasonic vibration. An ultrasonic treatment apparatus provided on the outer tube of the insertion portion near the position of the first node.
[0074]
(Additional Item 3) The ultrasonic treatment according to Additional Item 1 or 2, wherein the pivot shaft of the jaw is located near the position of the first node of the ultrasonic vibration in the vibration transmission member. apparatus.
[0075]
(Additional Item 4) A vibration transmitting member connected to the ultrasonic vibrator and transmitting the ultrasonic vibration generated by the ultrasonic vibrator to the distal end side,
An ultrasonic probe connected to the distal end side of the vibration transmission member and treating a living tissue with the ultrasonic vibration transmitted from the vibration transmission member,
A jaw that is rotatably supported in opposition to the ultrasonic probe and holds a living tissue between the ultrasonic probe and
Operating means for opening and closing the jaw with respect to the ultrasonic probe,
An operating force transmitting member that connects the jaw and the operating means and transmits an operating force from the operating means to the jaw;
An insertion portion outer tube that covers the operation force transmitting member and has the jaw provided on the distal end side;
With
An ultrasonic treatment apparatus, wherein a pivot shaft of the jaw is positioned near a position of a first node of ultrasonic vibration in the vibration transmitting member.
[0076]
(Supplementary Note 5) The operating force transmitting member is formed in a tubular shape, and the vibration transmitting member is inserted and disposed therein.
The ultrasonic treatment according to claim 4, wherein the jaw extends the base end to position the pivot shaft near the position of the first node of the ultrasonic vibration in the vibration transmission member. apparatus.
[0077]
(Additional Item 6) The operating force transmitting member is formed in a rod shape,
The insertion part mantle tube extends on the distal end side from the pivot shaft, and the pivot shaft is located near the position of the first node of the ultrasonic vibration in the vibration transmitting member. Ultrasonic treatment equipment.
[0078]
(Supplementary Note 7) The probe has a probe channel tube in which the vibration transmitting member is disposed inside, and a first support member is attached to an opening at the distal end thereof.
Extending the lower side of the distal opening of the probe channel tube in a tongue shape,
7. The ultrasonic treatment apparatus according to claim 6, wherein the jaw is located near the lower side of the pivot shaft.
[0079]
【The invention's effect】
As described above, according to the present invention, an ultrasonic treatment apparatus is realized which has a simple structure, has good durability, reduces bending of an ultrasonic probe, and does not apply a gripping load from a jaw to an operation force transmitting member. it can.
[Brief description of the drawings]
FIG. 1 is an overall configuration diagram showing an ultrasonic treatment apparatus according to a first embodiment. FIG. 2 is a circuit block diagram showing a configuration of an apparatus main body in FIG. 1. FIG. 3 is an exploded state of the ultrasonic treatment tool in FIG. FIG. 4 is a side view showing an assembled state of the entire ultrasonic treatment tool in FIG. 1; FIG. 5 is a side sectional view showing an internal configuration of the treatment unit; FIG. 6 is an AA of the treatment unit in FIG. FIG. 7 is an explanatory view of a main part of an ultrasonic treatment tool constituting an ultrasonic treatment apparatus according to a second embodiment; FIG. 8 is an enlarged view of a main part showing a modification of FIG. 7; FIG. 10 is an enlarged view of a main part showing a modified example. FIG. 10 is an explanatory view showing a further modified example. FIG. 11 is a side sectional view showing a treatment part of an ultrasonic treatment instrument constituting an ultrasonic treatment apparatus. FIG. 13 is a side sectional view showing a treatment section of an ultrasonic treatment instrument having a structure using a rod-shaped operation rod. FIG. 14 is a holding section separately. Schematic cross-sectional view of the distal end of the insertion portion mantle tube having a body [Description of symbols]
DESCRIPTION OF SYMBOLS 1 ... Ultrasonic treatment apparatus 1A ... Device main body 2 ... Ultrasonic treatment tool 4 ... Insert part outer tube 5 ... Treatment part 6 ... Operation part 9 ... Vibration transmission member 31 ... Handle unit 32 ... Probe unit 33 ... Transducer unit 41f ... Treatment unit (ultrasonic probe)
Reference numeral 50: operating rod 50a: tip connecting portion 51: jaw 52: jaw holding portion 52a: holding portion main body 60: pivot shaft 61: engaging shaft 71: support member

Claims (2)

A vibration transmitting member connected to the ultrasonic vibrator and transmitting ultrasonic vibration generated by the ultrasonic vibrator to the distal end side;
An ultrasonic probe connected to the distal end side of the vibration transmission member and treating a living tissue with the ultrasonic vibration transmitted from the vibration transmission member,
A jaw that is rotatably supported in opposition to the ultrasonic probe and holds a living tissue between the ultrasonic probe and
Operating means for opening and closing the jaw with respect to the ultrasonic probe,
An operating force transmitting member that is formed in a tubular shape and the vibration transmitting member is inserted and disposed, and that connects the jaw and the operating means to transmit an operating force from the operating means to the jaw;
An insertion portion outer tube that covers the operation force transmitting member and has the jaw provided on the distal end side;
With
When the living body tissue is gripped, the ultrasonic probe receives a gripping load from the jaw when receiving the gripping load. For the vibration transmitting member, a supporting member for supporting the vibration transmitting member is at least the ultrasonic vibration. An ultrasonic treatment apparatus provided on the outer tube of the insertion portion near the position of the first node. A vibration transmitting member connected to the ultrasonic vibrator and transmitting ultrasonic vibration generated by the ultrasonic vibrator to the distal end side;
An ultrasonic probe connected to the distal end side of the vibration transmission member and treating a living tissue with the ultrasonic vibration transmitted from the vibration transmission member,
A jaw that is rotatably supported in opposition to the ultrasonic probe and holds a living tissue between the ultrasonic probe and
Operating means for opening and closing the jaw with respect to the ultrasonic probe,
An operating force transmitting member that is formed in a tubular shape and the vibration transmitting member is inserted and disposed, and that connects the jaw and the operating means to transmit an operating force from the operating means to the jaw;
An insertion portion outer tube that covers the operation force transmitting member and has the jaw provided on the distal end side;
A drive circuit for controlling and driving the ultrasonic transducer,
With
When the living body tissue is gripped, the ultrasonic probe receives a gripping load from the jaw when receiving the gripping load. For the vibration transmitting member, a supporting member for supporting the vibration transmitting member is at least the ultrasonic vibration. An ultrasonic treatment apparatus provided on the outer tube of the insertion portion near the position of the first node.

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