JP3174095B2 - Ultrasonic treatment equipment - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention has a suction passage for sucking and removing unnecessary substances including blood and tissue fragments generated by ultrasonic treatment such as crushing, excision or emulsification of living tissue or calculus. Related to an ultrasonic treatment apparatus.

[0002]

2. Description of the Related Art FIG. 4 shows a schematic configuration of a suction system in a conventional ultrasonic treatment apparatus. Unnecessary aspirates such as blood and tissue pieces sucked through the ultrasonic probe (handpiece) 2 at the operation section 1 are guided to the suction bottle 5 through the suction line 4 by the negative pressure generated by the suction pump 3. It is taken in. At this time, the stop valve 6 between the ultrasonic probe 2 and the suction bottle 5 is opened, and the leak path 7 branched from the middle of the suction pipe 4 located between the ultrasonic probe 2 and the stop valve 6 is opened. The leak valve 8 in the middle is normally in a closed state. In the middle of the leak path 7, the check valve 10 is located on the leak valve 8 side (upstream side) of the branch portion 9.
Is inserted.

[0003] If the operative section 1 is sucking to the tip of the ultrasonic probe 2, even if the suction operation is stopped, the negative pressure at the time of suction remains in the suction pipe line 4 and the ultrasonic probe 2 The adsorbed state continues without the surgical section 1 being detached from the tip of the. The leak valve 8 is opened in such a case to open the suction pipe 4 to the atmosphere and release the suction of the operation portion 1. That is, immediately after the suction is stopped, the stop valve 6 of the suction pipe 4 is closed, and the leak valve 8 of the leak path 7 is opened to take in the air from the atmosphere opening port 7a at the tip of the leak path 7, and the leak path is opened. The suction section 4 is introduced into the suction pipe 4 from the branch section 9 through 7, and the suction path in the ultrasonic probe 2 is returned to the atmospheric pressure. As a result, the operative section 1 which is still attached to the tip of the ultrasonic probe 2 is released. You.

[0004]

By the way, blood and tissue fragments are guided to the suction bottle 5 through the suction line 4 by the negative pressure generated by the suction pump 3. At this time, the size, hardness, Further, it has been found that the pressure in the suction pipe line 4 varies considerably depending on the situation and location at that time due to the properties such as adhesiveness. For example, if an aspirated substance is clogged between the ultrasonic probe 2 and the branch 9, the negative pressure at the branch 9 increases. Further, when the suctioned material is clogged between the branch 9 and the suction bottle 5, the negative pressure tends to weaken at the branch 9. In addition, these vary from time to time depending on the properties of the suctioned material.

When the suctioned material is clogged between the branch 9 and the suction bottle 5, the negative pressure generated by the suction pump 3 in the branch 9 is reduced to approach the atmospheric pressure. For this reason, even if the leak valve 8 of the leak path 7 is opened in this state, the pressure difference between the pressure in the leak path 7 and the pressure of the suction pipe 4 connected through the branch portion 9 is small. Due to the pressure difference, air slightly flows into the branch portion 9 from inside the leak path 7, but the inertia due to the movement of the suctioned material flowing through the suction pipe line 4 by the suction action up to that point is more than the influence of the flowing air. If the effect of the suction is greater, the suction
There is a possibility that a phenomenon of getting inside will occur.

[0006] Then, a small amount of material that has entered the leak path 7 from the branch portion 9 gradually advances through the leak path 7 to a position where the check valve 10 is present. Leakage in one release operation is very small, but when the number of times of the operation is increased by ultrasonic treatment for a long time, a small amount of suctioned matter passing through the check valve 9 gradually accumulates, and eventually the leakage path 7 flows out through the air opening 7a.

[0007] Such aspirates are biological tissues such as blood, meat pieces and the like, which are filthy and, when touched, may cause disease infection in some cases. It is necessary to avoid things flowing out as much as possible.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned problems. It is an object of the present invention to provide a suction device that sucks through a suction pipe when the leak pipe is opened. It is an object of the present invention to provide an ultrasonic treatment apparatus capable of preventing the outflow of ash to the outside.

[0009]

In order to solve the above-mentioned problems, an ultrasonic treatment apparatus according to the present invention is connected to a suction path of an ultrasonic treatment probe through a suction pipe which leads to a suction path of the probe. A suction pump, a leak pipe branching from the middle of the suction pipe and having the other end communicating with the atmosphere, a stop valve opened at the time of a leak in the middle of the leak pipe, and the stop valve. A pressure sensor for detecting a pressure in the pipeline on the ultrasonic treatment probe side, wherein the stop is performed only at least when the pressure is an abnormal pressure at which a suctioned substance can flow from the suction pipeline to the leak pipeline. A control means for inhibiting the opening of the valve is provided.

However, in this configuration, when the leak pipe is opened, the suctioned material sucked through the suction pipe is in a pressure state where it is difficult to flow out through the leak pipe. Nothing leaks out.

[0011]

FIG. 1 schematically shows an essential part of an ultrasonic treatment apparatus according to an embodiment of the present invention. Reference numeral 11 denotes an ultrasonic treatment handpiece having an ultrasonic vibrator incorporated therein, and generates ultrasonic vibration in response to a drive signal from a driving device (not shown). An ultrasonic treatment probe 12 is detachably attached to the handpiece 11. A suction path (not shown) communicating with the handpiece 11 and the probe 12 is provided. This suction path is probe 1
It is open at the tip of 2. The handpiece 11 and the probe 12 are provided with a water supply channel (not shown) through which a reflux liquid such as a physiological saline solution from the water supply tank is supplied.
3 or to the above-mentioned suction path for perfusion.

One end of a suction pipe 15 made of a flexible tube is connected to the suction path of the handpiece 11, and the other end of the suction pipe 15 is connected to the suction bottle 1 as a suction container in the middle.
6 is connected to a suction pump 17. The suction pipe 15 is opened in the middle of the suction bottle 16 in the middle, and both open ends thereof are open in the upper space of the suction bottle 16, and are set so as not to pass through the bottom for storing the suctioned material.

The drive of the suction pump 17 is performed by the control unit 1.
8. A first stop valve 20 composed of a pinch valve is provided in the middle of the suction conduit 15 between the branch portion and the suction bottle 16, and after the ultrasonic treatment operation is completed, or at least a leak valve 24 described later is connected to the leak pipe. Road 2
When the tube 1 is released and its flow path is opened, it is closed to shut off the suction operation. In addition, the suction bottle 1
An intermediate portion of the suction pipe 15 between the suction pump 6 and the suction pump 17 is formed in a U-shaped loop to constitute a first trap 19.

At the position upstream of the suction bottle 16, the suction line 1
In the middle of 5, a leak pipe 21 made of a flexible tube is branched. The distal end of the leak pipe 21 is an open air end 22 that is open to the atmosphere. Also, leak line 2
A second stop valve 23 composed of an electromagnetic pinch valve for selectively sandwiching a flexible tube constituting the leak pipe 21 and a leak valve 24 located downstream of the second stop valve 23 are provided in the middle part of the leak pipe 21. Is provided. The second stop valve 23 and the leak valve 24 are opened and closed by a signal from the control unit 18. Normally, the leak valve 24 is closed.

On the upstream and downstream sides of the leak pipe 21 with the second stop valve 23 interposed therebetween, two pressure sensors 25 and 26 for measuring the pressure inside the leak pipe 21 are provided. The first pressure sensor 25 detects the internal pressure on the upstream side of the leak pipe 21 branched from the suction pipe 15, and the second pressure sensor 26 detects the internal pressure on the downstream side of the leak pipe 21. Has become. And this 2
One of the pressure values upstream and downstream detected by the pressure sensors 25 and 26 as compared with the control section 18, the second only when the pressure P ₁ on the upstream side is lower than the pressure P ₂ on the downstream side
The control means for opening the stop valve 23 and enabling the leak operation is constituted. That is, the suction line 1
The pressure on the side 5 is relatively high, and the leak line 21
In the case of an abnormal pressure at which the suctioned substance can flow into the suction port, the second stop valve 23 does not open.

[0016] Normally, since the downstream side of the leakage duct 21 typically Ku smaller fluctuations close to the atmosphere, the two pressure P _1, P
The pressure on the upstream side may be detected based on a predetermined value such as the atmospheric pressure without obtaining the difference between the _two . In this case the second
Pressure sensor 26 becomes unnecessary.

Further, a leak valve 2
4 and the second pressure sensor 26 and the suction line 1
A check valve 27 for shutting off the flow from the side 5 is provided, and a second trap 29 formed by forming a U-shaped loop between the atmosphere open end 22 and the second stop valve 23. Is composed.

Next, when using this ultrasonic treatment apparatus, first, an ultrasonic probe 12 is connected to a handpiece 11 and a reflux liquid is supplied from a water supply tank (not shown) through a water supply tube to the handpiece 11 and the ultrasonic probe 12. It is sent to the water supply path, and at the same time, the suction pump 17 is driven to suction the handpiece 11 and the ultrasonic probe 12 to the suction path through the suction pipe 15 to appropriately perform perfusion.
A so-called standby operation is performed.

After the standby operation is completed, when an oscillating operation is performed by operating an operation panel or a foot switch (not shown), the perfusion operation is started and the ultrasonic vibrator of the handpiece 11 is moved to about 23.5 ZH. Oscillates at the frequency of _Z , and this vibration is transmitted to the ultrasonic probe 12,
The living tissue can be crushed or emulsified and cut off by applying the tip of the ultrasonic probe 12 to the living tissue of the operation section 13.

The tissue pieces removed by this ultrasonic treatment and the aspirated matter such as blood generated at that time are taken into the suction bottle 16 on the way through the suction line 15 and do not reach the suction pump 17. . At this time, since the second stop valve 23 and the leak valve 24 are closed and the flow path of the leak pipe 21 is shut off, the air does not enter the suction pipe 15 through the leak pipe 21. . Note that the second stop valve 23 may be opened,
Also in this case, the air does not enter the suction pipe 15. However, when the leak pipe 21 is long, it is desirable that the second stop valve 23 is also closed.

After the treatment is completed, the water supply is stopped and the first stop valve 20 is shut off to stop the suction. When the operation section 13 is stopped in this manner and the negative pressure at the time of the suction causes the operation section 13 to stick to the tip of the ultrasonic probe 12, the operation section 13 is directly suctioned even if the suction is stopped. Often left behind. Therefore, in order to release the suction state, the leak valve 24 is opened immediately after the suction is stopped to open the flow path of the leak pipe 21, and the atmosphere is introduced into the suction pipe 15.

However, prior to this operation, the following operation is performed. This operation will be described with reference to the time chart in FIG. 1 (b). First, as described above, when the oscillating operation is stopped, the suction and the perfusion operation of the water supply are also stopped. At this time, the first (upstream) pressure sensor 25 detects the suction line 15.
The internal pressure on the upstream side of the leak pipe 21 branching from the leak pipe 21 is detected, and the second (downstream) pressure sensor 26 detects the internal pressure of the leak pipe 21.
The internal pressure on the downstream side of.

The two pressure sensors 25, 26
In the pressure P ₂ of the pressure P ₁ and the downstream side of the detected upstream compared with control unit 18, when the pressure P ₁ on the upstream side is much lower than the pressure P ₂ on the downstream side only, the second stop valve 23 and the leak valve 24 are opened. At this time, the first stop valve 20 is closed for the first time.

The second stop valve 23 and the leak valve 2
When 4 is opened, the first stop valve 20 is closed.
In this way, if the pressure P ₁ on the upstream side is significantly higher, without the second stop valve 23 and a leak valve 24 is opened, because the adsorption state from being continued. After oscillation is also stopped, if open first stop valve 20, a suction action of the suction pump 17, one becomes a pressure P ₁ on the upstream side is quite low, the adsorption state by the leakage to the atmosphere by the aforementioned operation Can be canceled.

The suctioned material through the suction line 15 accumulates in the suction bottle 16 and does not reach the suction pump 17.
The suction pump 17 should only contain air. However, when the sucked liquid becomes mist in the suction bottle 16, it flows into the suction pump 17 along with the air. However, since the first trap 19 is provided in the middle of the suction line 15 between the suction bottle 16 and the first stop valve 20 in the form of a loop, the direction and speed of the flow are reduced at this point. By changing, the atomized liquid is returned to a liquid state again and remains in that part. The liquid trapped here may be removed, for example, with each tube of the suction conduit 15 or by opening a discharge plug (not shown).

A check valve 27 is provided in the leak pipe 21 for introducing the atmosphere, thereby preventing a backflow from the suction pipe 15 side. Even if does not work well, it can be stored in the portion of the second trap 29 provided in the leak pipe 21, and leakage to the outside can be prevented as much as possible. Note that what is caught here is, for example, the leak line 2
It is preferable to remove the entire tube or by opening a discharge plug (not shown).

FIGS. 2 and 3 show a configuration of a main part in another embodiment. As shown in FIG. 2 , the suction line 15 leading to the suction line of the handpiece 11 and the leak line 21 branching from the middle of the suction line 15 are installed outside the apparatus main body 50, and The leak line 21
Is also located outside the apparatus main body 50. As in the above-described embodiment, the suction line 15 is provided with a suction bottle and a first stop valve 20 and is connected to a suction pump. Leak valve 2 is installed in leak line 21
4 are provided. The first stop valve 20 and the leak valve 24 are composed of an electromagnetic pinch valve for selectively sandwiching flexible tubes constituting the conduits 15 and 21,
51 and 52 are the solenoids.

Next, the operation of this configuration will be described with reference to FIG. In the interlocking suction mode shown in FIG.
During the ultrasonic oscillation for operating the switch, the first stop valve 20 is opened and the suction line 15 is in communication, so that the crushed tissue and the like are sucked. When the ultrasonic oscillation stops, the first stop valve 20 is closed, and thereafter, the leak valve 24 is opened for a predetermined short time, and the leak line 21 is opened to the atmosphere. Therefore, the living tissue of the operative part adsorbed to the tip of the ultrasonic probe 12 is released.

In the continuous suction mode shown in FIG. 3B, the first stop valve 20 normally opens to continue the suction operation. After the ultrasonic oscillation is stopped, the first stop valve 20 is stopped for a predetermined short time. The leak valve 24 is opened for a time, and the leak line 21 is opened.
Is open to the atmosphere. Therefore, when the ultrasonic oscillation is stopped, the first stop valve 20 is closed, and at this time, the leak valve 24 is opened for a predetermined short time, and the atmosphere is introduced through the leak pipe 21 so that the ultrasonic probe 1
The living tissue of the surgical site adsorbed to the tip of No. 2 is released.

As in this embodiment, since the leak pipe 21, especially the open end 22 thereof, is installed outside the apparatus main body 50, it is assumed that the living tissue, body fluids, and the like are released through the leak pipe 21. It does not flow into the apparatus main body 50 from 22 and makes the inside of the apparatus main body 50 dirty and unclean. In addition, since the suction pipe 15 and the leak pipe 21 are installed outside the apparatus main body 50, it is easy to use them as disposable tubes, so that the risk of infection or the like can be prevented. .

In this embodiment, other configurations may be the same as those in the above embodiment. Further, a check valve or a filter may be provided in the leak pipe 21 in order to prevent the living tissue, body fluid, and the like from flowing out. Further, in the present invention, the leak valve 24 in the above embodiment may be omitted, and the opening operation of the leak pipe 21 may be performed only by the stop valve 23.

[0032]

As described above, according to the present invention, when the leak pipe is opened, the suctioned material sucked through the suction pipe is in a pressure state in which it is difficult to flow out through the leak pipe. Therefore, the suctioned material does not flow out through the leak path, which is sanitary.

[Brief description of the drawings]

FIG. 1 (a) is a configuration explanatory view schematically showing a main part of an ultrasonic treatment apparatus according to one embodiment of the present invention, and FIG. 1 (b) is a schematic view of the ultrasonic treatment apparatus according to one embodiment of the present invention. 4 is a flowchart of the operation.

FIG. 2 is a configuration explanatory view showing a main part in another embodiment of the present invention.

FIG. 3 is a time chart of the operation of the ultrasonic treatment apparatus according to another embodiment of the present invention.

FIG. 4 is a configuration explanatory view schematically showing a main part of a conventional ultrasonic treatment apparatus.

[Explanation of symbols]

11 handpiece, 12 probe, 15 suction line, 17 suction pump, 18 control unit, 20
First stop valve, 21 ... leak line, 24 ... leak valve, 23 ... second stop valve.

──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Tomohisa Sakurai 2-43-2 Hatagaya, Shibuya-ku, Tokyo Inside O-limpus Optical Industry Co., Ltd. (72) Inventor Hitoshi Karasawa 2-34-2 Hatagaya, Shibuya-ku, Tokyo No. Olympus Optical Co., Ltd. (72) Inventor Mitsumasa Okada 2-43-2 Hatagaya, Shibuya-ku, Tokyo Intra-Olympus Optical Co., Ltd. (72) Hideo Nagasumi 2-43-2, Hatagaya, Shibuya-ku, Tokyo No. Olympus Optical Kogyo Co., Ltd. (72) Inventor Shihobu Kobayashi 2-43-2, Hatagaya, Shibuya-ku, Tokyo O-Limpus Optical Kogyo Co., Ltd. 2. Olympus Optical Co., Ltd. (72) Inventor Kenji Yoshino 2-43-2 Hatagaya, Shibuya-ku, Tokyo (72) Inventor Hiroaki Kagawa 2-43-2 Hatagaya, Shibuya-ku, Tokyo O-limpus Optical Industry Co., Ltd. (72) Kazuya Hijii 2-43-2 Hatagaya, Shibuya-ku, Tokyo Inside the Olympus Optical Co., Ltd. (72) Inventor Teshimaru Kubota 2-43-2 Hatagaya, Shibuya-ku, Tokyo Inside the Olympus Optical Co., Ltd. (72) Yoshiji Koda 2-43 Hatagaya, Shibuya-ku, Tokyo No. 2 Within Olympus Optical Co., Ltd. (56) References JP-A-4-329942 (JP, A) JP-A-1-135341 (JP, A) JP-A-3-146069 (JP, A) 2-139616 (JP, U) JP-A-2-42609 (JP, U) (58) Fields investigated (Int. Cl. ⁷ , DB name) A61B 17/22 330 A61B 18/00 A61M 1/00 500

Claims (1)

(57) [Claims] 1. An ultrasonic treatment probe having a suction path, a suction line connected to a suction path of the ultrasonic treatment probe, and a suction pump connected to the suction path of the probe through the suction line. A leak pipe that branches off from the middle of the suction pipe and the other end communicates with the atmosphere as an open-air end; a stop valve that is provided in the middle of the leak pipe and that opens when a leak occurs; A pressure sensor for detecting a pressure in the conduit on the ultrasonic treatment probe side, comparing the pressure detected by the pressure sensor with the pressure on the atmosphere open end side from the stop valve, and a pressure difference between the two. But control means for prohibiting the opening of the stop valve only when the suction value reaches a predetermined value that can be determined to be a state in which the suctioned substance flows from the suction pipe to the leak pipe. Sound wave Location apparatus.