KR20200126701A - Ultrasound apparatus of body insertable type with infection prevention cover - Google Patents

Abstract

An internal insertion type ultrasonic device includes: a handle; a support which is extended from the handle and includes a piezoelectric element housing on the distal end; a piezoelectric element which is mounted on the piezoelectric element housing and generates ultrasonic waves by receiving power; and an infection prevention cover which is detachably coupled to the handle or the support to surround the support. The piezoelectric element housing includes an ultrasonic wave transmission space in which the piezoelectric element is installed, an ultrasonic wave transmission medium inlet hole communicating with the ultrasonic wave transmission space, and an ultrasonic wave transmission medium outlet hole. In a state that the infection prevention cover is coupled to the support, an ultrasonic wave transmission medium inlet passage and an ultrasonic wave transmission medium outlet passage communicating with the ultrasonic transmission medium inlet hole and the ultrasonic transmission medium outlet hole, respectively, are formed between the infection prevention cover, the support, and the piezoelectric element housing so that an ultrasonic transmission medium can be introduced into and discharged from the ultrasonic transmission space.

Description

TECHNICAL FIELD [0002] Ultrasound apparatus of body insertable type with infection prevention cover

The present invention relates to an implantable ultrasonic device that is inserted into the body and configured to perform ultrasonic procedures.

Recently, the development of an intracorporeal ultrasound device configured to be inserted into the body to perform an ultrasound procedure has been actively conducted.For example, an intracorporeal ultrasound device is inserted into body cavities such as the nasal cavity, oral cavity, pharynx, and vagina to perform ultrasound procedures. It can be configured to be able to.

The implantable ultrasound device has an important technical issue to prevent human infection due to the characteristics of use that are inserted into the human body. In order to prevent human infection, a method of using a disposable cover or an exchangeable sealed cover has been introduced.

Due to the characteristics of ultrasonic waves, the ultrasonic delivery medium must be filled in the ultrasonic delivery path of the ultrasonic device. In this way, due to the necessity of the presence of a transmission medium for ultrasonic transmission and the need for a cooling function to cool the heat generated in the piezoelectric element during ultrasonic generation, water, which is mainly used as a transmission medium, is supplied to the piezoelectric element and then discharged. It is also composed. For this reason, when the delivery medium is contaminated or infected with bacteria, the hose through which the delivery medium is circulated, the storage tank of the delivery medium, the circulation pump, and the piezoelectric element are contaminated, resulting in a risk of cross-infection. For this reason, a structure that can prevent infection is indispensably required in recent medical device license conditions in each country, and the use of disposables is recommended.

The existing intracorporeal ultrasound device adopts a method of putting a sterile disposable cover on the part inserted into the body to prevent infection. However, the method of using the disposable cover has several practical problems. That is, the disposable cover must be made of a material capable of transmitting ultrasonic waves, and it is difficult to manufacture a disposable cover from such a material, and even if it is manufactured, it is difficult to cover the ultrasonic generator, making it very inconvenient to use, making it difficult to use realistically. In addition, since the presence of an air layer in the contact part between the disposable cover and the ultrasonic generating part makes it impossible to transmit ultrasonic waves, the gel for ultrasonic delivery must be applied between the ultrasonic generator and the disposable cover. It is difficult to implement realistically. In particular, in the case of a small-diameter implantable ultrasonic device, the size of the piezoelectric element is very small, but the ultrasonic energy is lowered, and the low-energy ultrasonic wave is primarily attenuated in the ultrasonic transmission window sealing the ultrasonic transmission medium, and is secondary again in the disposable cover. As the result is attenuated, the ultrasonic energy irradiated to the human body is very low, making it difficult to expect a therapeutic effect.

In addition, there is a possibility of infection during the procedure if the delivery medium flows out of the ultrasound generator while the delivery medium is supplied or the delivery medium is contaminated.

Registered Patent Publication 10-1857026 Registered Patent Publication 10-1896565 Registered Patent Publication 10-1886673 US Patent Publication No. US2008/0027423

The problem to be solved by the present invention is to provide an intracorporeal ultrasonic device with improved technical feasibility and convenience in use while blocking infection of a delivery medium.

In an embodiment of the present invention, an intracorporeal ultrasonic apparatus includes a handle, a support extending from the handle and having a piezoelectric element housing at a distal end thereof, a piezoelectric element mounted on the piezoelectric element housing and configured to generate ultrasonic waves by receiving power, And an infection prevention cover detachably fastened to the handle or the support so as to surround the support. The piezoelectric element housing includes an ultrasonic transmission space in which the piezoelectric element is installed, and an ultrasonic transmission medium inlet hole and an ultrasonic transmission medium discharge hole communicating with the ultrasonic transmission space. An ultrasonic delivery medium inlet passage communicating with each of the ultrasonic delivery medium inlet hole and the ultrasonic delivery medium discharge hole so that the ultrasonic delivery medium can be introduced and discharged into the ultrasonic delivery space while the infection prevention cover is fastened to the support, and The ultrasonic transmission medium discharge passage is configured to be formed between the infection prevention cover and the support and the piezoelectric element housing.

The infection prevention cover may include a cover member forming an ultrasonic passage window through which the ultrasonic waves pass, and an ultrasonic transmissive film formed of a material through which the ultrasonic waves pass, and attached to the cover member to seal the ultrasonic passage window. I can.

The piezoelectric element housing is connected to the ultrasonic transmission space and may form an ultrasonic passage hole through which the ultrasonic wave passes, and the infection prevention cover maintains the ultrasonic passage window at least partially overlapping the ultrasonic passage hole. Can be fastened to the handle.

The infection prevention cover may further include a fixing member fixed to the cover member and detachably fastened to the handle.

The fixing member has a body in which the cover member of the support is fixed and forms a through hole through which the support is passed, and an inlet which is branched from the body and communicates with the ultrasonic transmission medium inlet passage and the ultrasonic transmission medium discharge passage, respectively. It may include an outlet.

The ultrasonic device inserted into the body according to another embodiment of the present invention may further include an ultrasonic delivery medium inlet hose connected to the inlet, and an ultrasonic delivery medium discharge hose connected to the outlet, and the ultrasonic waves on both sides of the handle Insertion grooves into which the delivery medium inlet hose and the ultrasonic delivery medium discharge hose are inserted may be formed, respectively.

The intracorporeal ultrasonic device according to another embodiment of the present invention may further include a sealing ring sealing between the inner end of the fixing member and the support.

The ultrasonic delivery medium inflow passage and the ultrasonic delivery medium discharge passage may be respectively formed by a space created by a space between an outer surface of the support and an inner surface of the infection prevention cover.

The ultrasonic delivery medium inflow passage and the ultrasonic delivery medium discharge passage may be formed on both sides facing the support.

The infection prevention cover may have a circular cross-sectional shape, and the support may have a circular cross-sectional shape from which both sides are removed or may have a recessed shape.

Each of the protrusions extending in a direction parallel to the longitudinal direction of the support and configured to be in close contact with the inner surface of the infection prevention cover is formed in the upper and lower portions of the support, respectively forming the ultrasonic delivery medium inflow passage and the ultrasonic delivery medium discharge passage. Can be.

A liner made of an elastic material configured to be in close contact with the inner surface of the infection prevention cover by extending in a direction parallel to the longitudinal direction of the support at the upper and lower portions of the support, respectively forming the ultrasonic delivery medium inlet passage and the ultrasonic delivery medium discharge passage Can be placed respectively.

The support may be formed to have a circular cross-sectional shape, and the infection prevention cover may be formed to have a length in a transverse direction longer than that in a longitudinal direction.

The fixing member may be inserted into the handle in a longitudinal direction and then rotated to be fastened to the handle so that the ultrasonic passage window of the infection prevention cover may be fixed at a position overlapping with the ultrasonic passage hole of the piezoelectric element housing. have.

The fixing member may have a fastening protrusion protruding radially outward, and the handle is an insertion groove configured to be inserted into the fastening protrusion, and is formed to extend in a circumferential direction from the insertion groove, and the fastening protrusion rotates. It may include a moving groove configured to allow for, and a fixing groove extending from the moving groove and formed to fix the rotation position of the fastening protrusion.

The sealing ring may further include a sealing ring supporting an end of the fixing member, and when the fastening protrusion is positioned in the moving groove, the sealing ring is pressed, and when the fastening protrusion is located in the fixing groove, the sealing ring The restoring force of may be configured to pressurize the fastening protrusion to be maintained in the fixing groove.

The support may include a guide tube through which a power line for supplying power to the piezoelectric element passes.

According to the present invention, since the inflow and discharge passages of the ultrasonic transmission medium are formed by the infection prevention cover and the support, it is not necessary to install a separate tubular member in the support for circulation of the ultrasonic transmission medium, thereby circulating the ultrasonic delivery medium. And while the infection prevention function is implemented, it is possible to reduce the diameter of the support.

1 is a perspective view of an implantable ultrasonic device according to an embodiment of the present invention.
2 is an exploded perspective view of an ultrasonic device inserted into the body according to an embodiment of the present invention.
3 is a cross-sectional view taken along line III-III of FIG. 1.
4 is an enlarged view of part A of FIG. 3.
5 is an enlarged view of part B of FIG. 3.
6 is a perspective view of a supporter of an ultrasonic device for insertion into a body according to an embodiment of the present invention.
7 is an enlarged view of part C of FIG. 6.
8 is a perspective view showing a state in which an infection prevention cover is covered on the support shown in FIG. 6.
9 is a cross-sectional view taken along line IX-IX of FIG. 8.
10 is a cross-sectional view taken along line X-X in FIG. 8.
11 is a perspective view of an inlet portion of a handle of an intracorporeal ultrasonic device according to an embodiment of the present invention.
12 is a partially cut-away perspective view of an inlet portion of a handle of an ultrasonic device of an intracorporeal insertion type according to an embodiment of the present invention.
13 is a partially cut-away perspective view showing a state in which a support and an infection prevention cover are fastened to a handle of an intracorporeal ultrasound apparatus according to an embodiment of the present invention.
14 is a cross-sectional view of a support member and a tube member of an intracorporeal ultrasonic device according to another embodiment of the present invention.
15 is a cross-sectional view of a support member and a tube member of an intracorporeal ultrasonic device according to another embodiment of the present invention.
16 is a cross-sectional view of a support member and a tube member of an intracorporeal ultrasonic device according to another embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The implantable ultrasound apparatus according to an embodiment of the present invention is configured to cause thermal lesions in tissues by irradiating ultrasound while being inserted into a body cavity such as the nasal cavity, oral cavity, pharynx, or vagina.

Referring to FIGS. 1 and 2, the implantable ultrasound apparatus includes a handle 10, a support 20, a piezoelectric element 40, and an infection prevention cover 50. The support 20 is fixed to the handle 10 as shown in FIG. 2, and the infection prevention cover 50 may be detachably fastened to the handle 10 while surrounding the support 20. Meanwhile, in another embodiment of the present invention, the infection prevention cover 50 may be fastened to the support 20 instead of being fastened to the handle 10. Hereinafter, a case where the infection prevention cover 50 is detachably fastened to the handle 10 with one end inserted into the handle 10 will be described with reference to the accompanying drawings.

The handle 10 may be formed to be held by a practitioner performing ultrasound treatment. As exemplarily shown in FIG. 1, the handle 10 may be connected to an external power supply/control device 100 through a power/control connection line 11, and a power line connected to the power/control connection line 11 (Not shown) may be electrically connected to the piezoelectric element 40 through the handle 10 and the support 20. The power/control device 100 may be configured to supply pulse power for generating ultrasonic waves and perform various controls for ultrasonic procedures.

Referring to FIGS. 1 and 2, the support 20 may have a long rod shape having a relatively small diameter to extend from the handle 10 and to be inserted into the body. The proximal end of the support 20 may be inserted into the handle 10 to be fixed, and a piezoelectric element housing 30 is provided at the distal end of the support 20. Here, the proximal end means an end close to the handle 10 and the distal end means an end far from the handle 10. The support 20 including the piezoelectric element housing 30 as a part thereof may be formed of an electrically insulating synthetic resin material for electrical insulation on both sides of the piezoelectric element 40 installed thereon. The support 20 may form a passage through which a power line (not shown) for supplying power to the piezoelectric element 40 passes, and for example, as shown in FIGS. 3 to 5, the inflow of the power line is prevented. A pipe 28 for can be disposed within the support 20. On the other hand, in another embodiment of the present invention, its own passage is formed in the support 20, and a power line may be inserted through this passage. For example, the pipe 28 may be formed of a metal material, and the support 20 may be formed by insert injection using the metal pipe 28. At this time, one end of the power line may be electrically connected to the power/control connection line 11 and electrically connected to the electrode of the other end of the piezoelectric element 40.

The piezoelectric element 40 generates ultrasonic waves by receiving pulse power supplied through a power line. The piezoelectric element 40 may be implemented by forming electrodes on both surfaces of the piezoelectric ceramic. 2, 6, and 7, the piezoelectric element 40 may have a concave hollow cylinder shape when viewed from a direction in which ultrasonic waves travel.

7, 9, and 10, the piezoelectric element housing 30 forms an ultrasonic transmission space 31 in which the piezoelectric element 40 is installed. In addition, the piezoelectric element housing 30 includes an ultrasonic transmission medium inlet hole 32 and an ultrasonic transmission medium outlet 33 communicating with the ultrasonic transmission space 31. Referring to FIG. 9, the piezoelectric element 40 may be fixed to the piezoelectric element housing 30 so that the concave surface is exposed to the ultrasonic transmission space 31, and the ultrasonic transmission medium inlet hole 32 and the ultrasonic transmission medium discharge hole 33 may be formed to face each other on both sides of the ultrasonic transmission space 31 in front of the piezoelectric element 40. On the other hand, the piezoelectric element housing 30 may include an ultrasonic passage hole 34 provided in a portion facing the concave surface of the piezoelectric element 40, that is, a portion through which ultrasonic waves pass, and the concave portion of the piezoelectric element 40 A seating surface for supporting the surface may be provided. Meanwhile, in the piezoelectric element housing 30, an installation hole 35 for installation of the piezoelectric element 40 may be formed on the opposite side of the ultrasonic passage hole 34, and the installation hole after the piezoelectric element 40 is inserted. 35 can be blocked with a cover 36.

The infection prevention cover 50 is provided to prevent infection and is detachably fastened to the handle 10 so as to surround the support 20. The infection prevention cover 50 may provide a seal so that the body fluid does not flow into the support 20 or the ultrasonic transmission medium does not flow out of the body while being inserted into the body.

2 and 3, the infection prevention cover 50 may include a cover member 51, an ultrasonic transmission film 52, and a fixing member 53. The cover member 51 may have a hollow cylinder shape so that the support 20 can be inserted. In this case, as shown in FIGS. 2 and 10, the front end of the cover member 51 may be opened, and a separate stopper 54 may be inserted into the open end of the cover member 51. Meanwhile, in another embodiment of the present invention, the front end of the cover member 51 may be closed without a separate stopper. For example, the cover member 51 may be formed of a metal material such as stainless steel.

The cover member 51 is fixed to the fixing member 53, and the fixing member 53 is detachably fastened to the handle 10. That is, the tube member 51 to which the ultrasonic transmission film 52 is attached, and the fixing member 53 to which the tube member 51 is fixed constitute one unit, the infection prevention cover 50, and the fixing member 53 By being fastened to the handle 10, the infection prevention cover 50 surrounds the support 20 in a liquid-sealed state.

The cover member 51 may include an ultrasonic passage window 511 through which ultrasonic waves pass. In this case, the infection prevention cover 50 may be fastened to the handle 10 so that the ultrasonic passage window 511 of the cover member 51 at least partially overlaps the ultrasonic passage hole 34 of the piezoelectric element housing 30. For example, the ultrasonic passage hole 34 of the piezoelectric element housing 30 and the ultrasonic passage window 511 of the cover member 51 may have a substantially rectangular shape, respectively, as shown in FIG. 9. Likewise, the ultrasonic passage window 511 of the cover member 51 may be formed so as to cross both ends of the ultrasonic passage hole 34 of the piezoelectric element housing 30 in the width direction of the piezoelectric element housing 30, and FIG. As shown in FIG. 2, the ultrasonic passage window 511 of the cover member 51 may be formed so as to cross both ends of the ultrasonic passage hole 34 of the piezoelectric element housing 30 in the longitudinal direction of the piezoelectric element housing 30. have.

The ultrasonic transmission film 52 may be formed of a synthetic resin material such as polyimide through which ultrasonic waves are transmitted, and may be attached to the cover member 50 to seal the ultrasonic passage window 511.

According to an embodiment of the present invention, a separate hose is provided in the support 20 to secure a passage for supplying and circulating an ultrasonic transmission medium, for example, water in the ultrasonic transmission space 31 of the piezoelectric element housing 30. Instead of disposing, the infection prevention cover 50 is used to form a passage for the inflow and outflow of the ultrasonic delivery medium. In a state in which the infection prevention cover 50 is fastened to the handle 10, that is, in the state shown in FIG. 1, ultrasonic delivery of the piezoelectric element housing 30 so that the ultrasonic transmission medium can be introduced and discharged into the ultrasonic delivery space 31 The ultrasonic delivery medium inflow passage 62 and the ultrasonic delivery medium discharge passage 63 communicated with the medium inlet hole 32 and the ultrasonic delivery medium discharge hole 33, respectively, are provided with an infection prevention cover 50, a support 20, and a piezoelectric element. It is configured to be formed between the device housing 30.

3 to 5, the ultrasonic delivery medium inflow passage 62 and the ultrasonic delivery medium discharge passage 63 are formed on the outer surface of the support 20 and the infection prevention cover 50, specifically the inner surface of the cover member 51. Each can be formed by the space created by the separation between them. In addition, the ultrasonic delivery medium inflow passage 62 and the ultrasonic delivery medium discharge passage 63 may be formed on opposite sides of the support 20 and extend along the longitudinal direction of the support 20 to form a piezoelectric element housing 30. ) Of the ultrasonic transmission medium inlet hole 32 and the ultrasonic transmission medium discharge hole 33 can be reached. For example, the cover member 51 may have a circular cross-sectional shape, and the support 20 may have a circular cross-sectional shape with both sides removed, or may have a recessed shape. That is, depressions 22 and 23 for forming the ultrasonic delivery medium inflow passage 62 and the ultrasonic delivery medium discharge passage 63 may be formed on both sides of the support 20. Accordingly, as shown in FIGS. 3 to 5, the ultrasonic delivery medium inflow passage 62 and the ultrasonic delivery medium discharge passage 63 by the space between the inner surface of the cover member 51 and the side surface of the support 20 Is formed.

Meanwhile, according to an embodiment of the present invention, the fixing member 53 for fixing the handle 10 is configured to act as an inlet and an outlet for supplying and discharging the ultrasonic transmission medium. For example, as shown in FIG. 2, the fixing member 53 may include a body 531 and an inlet 532 and an outlet 533 branched from the body 531, respectively.

3 and 4, the body 531 extends along the longitudinal direction of the support 20 and includes a through hole 5311 into which the support 20 is inserted. At this time, the proximal end of the tube member 51 may be inserted into the through hole 5311 and fixed to the inner surface of the body 531. Meanwhile, the inlet 532 forms a passage 5321 therein, and the passage 5321 communicates with the ultrasonic transmission medium inlet passage 62. Likewise, the discharge port 533 forms a passage 5331 therein, and the passage 5331 communicates with the ultrasonic delivery medium discharge passage 63. In this case, as shown in FIG. 4, the recessed surfaces 22 and 23 of the support 20 may be formed to extend to the passages 5321 and 5331 of the inlet 532 and the outlet 533.

The ultrasonic delivery medium inlet hose 82 for introducing the ultrasonic delivery medium may be connected to the inlet 532 of the fixing member 53, and the ultrasonic delivery medium discharge hose 83 for discharging the ultrasonic delivery medium is a fixing member ( 53) may be connected to the outlet 533. The ultrasonic delivery medium inlet hose 82 and the ultrasonic delivery medium discharge hose 83 may be connected to a tank (not shown) for storing the ultrasonic delivery medium. Meanwhile, although not shown in the drawings, a pump (not shown) for pumping and circulating the ultrasonic delivery medium stored in the tank may be provided. Meanwhile, referring to FIGS. 1 and 11, insertion grooves 12 and 13 may be provided on both sides of the handle 10, and the ultrasonic delivery medium inlet hose 82 and the ultrasonic delivery medium discharge hose 83 They may be connected to the inlet 532 and the outlet 533 of the fixing member 53 while being inserted into the insertion grooves 12 and 13, respectively.

With this structure, the ultrasonic delivery medium supplied through the ultrasonic delivery medium inlet hose 82 is the passage 5321 of the inlet 532 of the fixing member 53, the ultrasonic delivery medium inlet passage 62, and the ultrasonic delivery medium inflow It is introduced into the ultrasonic delivery space 31 through the hole 32, and the ultrasonic delivery medium in the ultrasonic delivery space 31 is an ultrasonic delivery medium discharge hole 33, an ultrasonic delivery medium discharge passage 63, and a fixing member 53 It is discharged to the ultrasonic delivery medium discharge hose 83 through the passage (5331) of the outlet 533 of. As a result, since the ultrasonic delivery medium is discharged after filling the ultrasonic delivery space 31, stable propagation of ultrasonic waves in the ultrasonic delivery space 31 is ensured, as well as the piezoelectric element 40 in the ultrasonic generation process by circulation of the ultrasonic delivery medium. You can cool the heat. Further, since the passage for the inflow and discharge of the ultrasonic delivery medium is formed by the space between the infection prevention cover 50 and the support 20, the patient's infection through the infection of the support 20 and the ultrasonic delivery medium during the ultrasound procedure. In addition to preventing infection and cross-infection, the supply and circulation structure of the ultrasonic delivery medium is realized through a simple structure.

An insertion hole 14 into which the support 20 and the fixing member 53 are inserted may be provided at the tip of the handle 10. For convenience of explanation, although the support 20 is shown in FIGS. 11 and 12 in a state in which the support 20 is removed, the support 20 may maintain a state fastened to the handle 10 as shown in FIG. 2. For example, the support 20 may be fixed to the fastening member 15 shown in FIG. 12. For example, the fastening member 15 may be fixedly installed in the handle 10 and may have a through hole 151 through which the support 20 passes, and the support 20 is as shown in FIG. It may be fixed to the fastening member 15 so as to pass through the through hole 151.

Meanwhile, referring to FIGS. 2 and 13, a sealing ring 90 supported on an inner end of the fixing member 53 may be provided, and the sealing ring 90 includes a fastening member 15 and a fixing member 53 Can be placed between the steps of. The sealing ring 90 seals between the inner end of the fixing member 53 and the outer surface of the support 20, whereby the ultrasonic transmission medium is directed toward the handle 10 through the gap between the fixing member 53 and the support 20. It can prevent leakage. The sealing ring 90 may be formed of a material having an elastic restoring force such as rubber.

The handle 10 and the fixing member 53 have a structure capable of maintaining a state that is fastened to a predetermined position. The fixing member 53 has a fastening protrusion 535 protruding in the radial direction, and the handle 10 is an insertion groove 161 configured to be inserted into the fastening protrusion 535, the circumferential in the insertion groove 161 A moving groove 162 extending in the direction and configured to allow rotation of the fastening protrusion 535, and a moving groove 162 extending from the moving groove 162 and formed to fix the rotational position of the fastening protrusion 535 It may include a fixing groove 163. 11 and 12, it is connected to the insertion hole 14 of the insertion groove 161 and may be formed to extend in a direction parallel to the length direction of the handle 10, and the moving groove 162 is an insertion groove ( 161) extends circumferentially at the end. Further, from the end of the moving groove 162 of the fixing groove 163, it is formed to extend toward the front end of the handle 10 along a direction parallel to the length direction of the handle 10. The fixing member 53 is inserted into the insertion hole 14 of the handle 10 with the fastening protrusion 535 inserted into the insertion groove 161, and then the fastening protrusion 535 moves along the moving groove 162 Thus, it is rotated to the position of the fixing groove 163. In this state, the fastening protrusion 535 is pushed toward the tip of the handle 10 by the elastic restoring force of the sealing ring 90 and flows into the fixing groove 163, thereby restricting additional rotation of the fixing member 53 It can be fixed in a predetermined rotation position. At this time, while the fastening protrusion 535 is positioned in the fixing groove 163, the ultrasonic passage window 511 of the cover member 51 is in a state that overlaps the ultrasonic passage hole 34 of the piezoelectric element housing 30. .

14 to 16 are cross-sectional views of a supporter and a tube member of an ultrasonic device of an intracorporeal insertion type according to other embodiments of the present invention. In these embodiments, preventing the ultrasonic delivery medium from passing through the gap between the tube member 51 and the support 20 while flowing through the ultrasonic delivery medium inlet passage 62 and the ultrasonic delivery medium discharge passage 63 It has means for

First, referring to FIG. 14, infection is prevented by extending in a direction parallel to the longitudinal direction of the support 20 at the upper and lower portions of the supports forming the ultrasonic delivery medium inflow passage 62 and the ultrasonic delivery medium discharge passage 63, respectively. Protrusions 26 and 27 configured to be in close contact with the inner surface of the tube member 51 of the cover 50 are formed, respectively. The infection prevention cover 50 is inserted into the support 20, and the protrusions 26 and 27 are inner surfaces of the tube member 51 at the top and bottom of the ultrasonic delivery medium inflow passage 62 and the ultrasonic delivery medium discharge passage 63. Because it is in close contact with the ultrasonic delivery medium inlet passage 62, before entering the ultrasonic delivery space flowing through the ultrasonic delivery medium passing through the discharge passage 63 and the ultrasonic delivery medium discharged into the ultrasonic delivery medium inlet passage 62 You can prevent it from going over.

Meanwhile, referring to FIG. 15, liners 28 and 29 made of an elastic material that are in close contact with the inner surface of the tube member 51 are disposed. The liners 28 and 29 may extend in a direction parallel to the longitudinal direction of the support 20 at the upper and lower portions of the support 20 forming the ultrasonic delivery medium inflow passage 62 and the ultrasonic delivery medium discharge passage 63, respectively. I can. For example, the liners 28 and 29 may be formed of a material having elasticity such as rubber.

Meanwhile, referring to FIG. 16, the infection prevention cover 50, specifically, the tube member 51 may be formed in a length longer in the transverse direction than in the longitudinal direction, thereby preventing the ultrasonic transmission medium from passing. In this case, the support 20 may have a circular cross-sectional shape, and the tube member 51 may have an elliptical shape having a transverse length (b) longer than a longitudinal length (a). Accordingly, when the support 20 is inserted into the tube member 51, the upper and lower portions of the support 20 can be firmly contacted while securing the ultrasonic delivery medium inflow passage 62 and the ultrasonic delivery medium discharge passage 63. . As a result, it is possible to prevent the ultrasonic delivery medium from crossing between the ultrasonic delivery medium inflow passage 62 and the ultrasonic delivery medium discharge passage 63.

Although the embodiments of the present invention have been described above, the scope of the present invention is not limited thereto, and the embodiments of the present invention are easily changed by those of ordinary skill in the technical field to which the present invention pertains, and are recognized as equivalent. It includes all changes and modifications to the extent that it becomes available.

10: handle
20: support
40: piezoelectric element
50: infection prevention cover
30: piezoelectric element housing
31: ultrasound transmission space
32: ultrasonic transmission medium inlet hole
33: ultrasonic transmission medium discharge hole
34; Ultrasonic passage hole
51: cover member
52: ultrasonic transmissive film
53: fixing member
54: plug
511: ultrasonic passing window
62: ultrasonic delivery medium inlet passage
63: ultrasonic delivery medium discharge passage
22, 23: depression surface
531: body
532: inlet
533: outlet
82: ultrasonic delivery medium inlet hose
83: ultrasonic delivery medium discharge hose
14: insertion hole
15: fastening member
151: through hole
90: sealing ring
535: fastening projection
161: insertion groove
162: moving home
163: fixing groove
26, 27: protrusion
28, 29: liner

Claims (17)

handle,
A support extending from the handle and having a piezoelectric element housing at a distal end thereof,
A piezoelectric element mounted on the piezoelectric element housing and configured to generate ultrasonic waves by receiving power, and
Infection prevention cover detachably fastened to the handle or the support to surround the support
Including,
The piezoelectric element housing includes an ultrasonic transmission space in which the piezoelectric element is installed, and an ultrasonic transmission medium inlet hole and an ultrasonic transmission medium discharge hole communicated with the ultrasonic transmission space,
In a state in which the infection prevention cover is fastened to the support, an ultrasonic delivery medium inlet passage communicating with each of the ultrasonic delivery medium inlet hole and the ultrasonic delivery medium discharge hole so that the ultrasonic delivery medium flows into and discharges the ultrasonic delivery space, and The ultrasonic delivery medium discharge passage is configured to be formed between the infection prevention cover and the support and the piezoelectric element housing
Ultrasound device implanted in the body. In claim 1,
The infection prevention cover
A cover member forming an ultrasonic passage window through which the ultrasonic waves pass, and
An ultrasonic transmissive film formed of a material through which the ultrasonic waves can be transmitted and attached to the cover member to seal the ultrasonic passage window
Containing
Ultrasound device implanted in the body. In paragraph 2,
The piezoelectric element housing is connected to the ultrasonic transmission space and forms an ultrasonic passage hole through which the ultrasonic wave passes,
The infection prevention cover is fastened to the handle so that the ultrasonic passage window at least partially overlaps with the ultrasonic passage hole.
Ultrasound device implanted in the body. In paragraph 3,
The infection prevention cover is fixed to the cover member and further comprises a fixing member detachably fastened to the handle. In claim 4,
The fixing member
A body in which the cover member of the support is fixed and forms a through hole through which the support passes, and
Each branching from the body and including an inlet and an outlet respectively communicated with the ultrasonic transmission medium inlet passage and the ultrasonic transmission medium discharge passage
Ultrasound device implanted in the body. In clause 5,
An ultrasonic delivery medium inlet hose connected to the inlet, and
Ultrasonic delivery medium discharge hose connected to the outlet
Including more,
Insertion grooves into which the ultrasonic delivery medium inlet hose and the ultrasonic delivery medium discharge hose are inserted are formed on both sides of the handle.
Ultrasound device implanted in the body. In claim 4,
Intrabody insertion type ultrasonic device further comprising a sealing ring sealing between the inner end of the fixing member and the support. In claim 1,
The ultrasonic delivery medium inflow passage and the ultrasonic delivery medium discharge passage are respectively formed by a space created by a space between an outer surface of the support and an inner surface of the infection prevention cover. In clause 8,
The ultrasonic delivery medium inflow passage and the ultrasonic delivery medium discharge passage are respectively formed on both sides facing the support. In clause 8,
The infection prevention cover has a circular cross-sectional shape,
The support has a circular cross-sectional shape with both sides removed, or has a recessed shape.
Ultrasound device implanted in the body. In claim 10,
Each of the protrusions extending in a direction parallel to the longitudinal direction of the support and configured to be in close contact with the inner surface of the infection prevention cover is formed in the upper and lower portions of the support, which respectively form the ultrasonic delivery medium inlet passage and the ultrasonic delivery medium discharge passage. Implantable ultrasound device. In claim 10,
A liner made of an elastic material configured to be in close contact with the inner surface of the infection prevention cover by extending in a direction parallel to the longitudinal direction of the support at upper and lower portions of the support, respectively forming the ultrasonic delivery medium inlet passage and the ultrasonic delivery medium discharge passage The implantable ultrasound device is placed in each body. In clause 8,
The support is formed to have a circular cross-sectional shape,
The infection-preventing cover is inserted into the body of the ultrasound device that is formed in a transverse length longer than a longitudinal length. In claim 4,
The fixing member is inserted into the handle in the longitudinal direction and then rotated so that the ultrasonic passage window of the infection prevention cover may be fixed at a position overlapping the ultrasonic passage hole of the piezoelectric element housing. Implantable ultrasonic devices. In clause 14,
The fixing member has a fastening protrusion protruding outward in the radial direction,
The handle is an insertion groove configured to be inserted into the fastening protrusion, a movable groove formed to extend in a circumferential direction from the insertion groove, and a movable groove configured to allow rotation of the fastening protrusion, and the movable groove extending from the Having a fixing groove formed to fix the rotation position of the fastening protrusion
Ultrasound device implanted in the body. In paragraph 15,
Further comprising a sealing ring for supporting the end of the fixing member,
In a state in which the fastening protrusion is located in the moving groove, the sealing ring is pressed, and in a state in which the fastening protrusion is located in the fixing groove, a restoring force of the sealing ring is configured to pressurize the fastening protrusion to be held in the fixing groove.
Ultrasound device implanted in the body. In claim 1,
The support includes a guide tube through which a power line for supplying power to the piezoelectric element passes.
Ultrasound device implanted in the body.

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