KR20200079714A - Ultrasonic nozzle for coating stent - Google Patents

Abstract

The present invention relates to an ultrasonic nozzle for coating a stent, and more particularly, to an ultrasonic nozzle for coating a stent, which uses an ultrasonic signal of about 1 MHz for fine and precise coating of the stent mounted in a blood vessel. The ultrasonic nozzle for coating the stent includes: a ceramic vibrator (114) configured to receive ultrasonic waves having a frequency of several Mhz through an electrode plate (112) to change the ultrasonic waves into mechanical vibrations; a nozzle body (110) having a space into which the ceramic vibrator is inserted, a first flow path through which a coating material is injected to move, and a space for mounting the electrode plate; and a horn (120) mounted on a front end of the nozzle body, having a second flow path communicating with the first flow path, and configured to concentrate the mechanical vibrations transmitted through the nozzle body to spray the coating material introduced through the second flow path by using the concentrated mechanical vibrations and an introduction force of air introduced from the outside.

Description

Ultrasonic nozzle for stent coating {ULTRASONIC NOZZLE FOR COATING STENT}

The present invention relates to an ultrasonic nozzle for stent coating, and more particularly, to an ultrasonic nozzle for stent coating using an ultrasonic signal of about 1 MHz for fine and precise coating of a stent mounted in a blood vessel.

The operation of the narrowed blood vessels using a balloon is called balloon angioplasty, and the installation of a metal stent is called a stent procedure when the narrowed blood vessels are not effectively widened immediately after the balloon operation or there are local complications. Currently, after balloon angioplasty, a lot of stents are performed to prevent narrowing of the blood vessels again.

Currently, the biggest drawback of stent surgery is restenosis within the stent, a product that completely solves this problem has not yet been developed, and the restenosis problem is caused by mechanical damage in the blood vessel caused by the stent directly or Indirectly causing an inflammatory reaction, smooth muscle cells of the blood vessel proliferate and move into the stent, and secretion of a substrate substance in the blood vessel forms a membrane inside the stent, and finally restenosis in the stent occurs. Currently, the use of stents coated with certain drugs is increasing to prevent restenosis after angioplasty.

Stents have a variety of structures, and accordingly, various coating systems, coating times, coating solutions, and so on, require various coating systems, and require finer and more precise ultrasonic nozzles to provide a smaller and more precise coating of stents. Became.

Republic of Korea Patent Application 2006-0072057 "Low temperature spray device"

Therefore, the present invention has been made in consideration of the above situation, and an object of the present invention is to provide an ultrasonic nozzle for stent coating suitable for coating a small and precise stent.

In order to achieve the above object, the ultrasonic nozzle for stent coating according to the embodiment of the present invention includes a ceramic vibrator configured to receive ultrasonic waves at a frequency of several MHz through an electrode plate and change them into mechanical vibrations; A nozzle body provided with a space for inserting the ceramic vibrator, a first flow path through which a coating material is injected, and a space for mounting the electrode plate; And a second flow path mounted on the front end of the nozzle body and communicating with the first flow path, concentrating the mechanical vibration transmitted through the nozzle body, and using the concentrated mechanical vibration and the inflow force of air introduced from the outside. It characterized in that it comprises a horn (horn) configured to spray the coating material flowing through the second flow path.

In the ultrasonic nozzle for stent coating according to the embodiment, the tip of the horn is equipped with a transducer configured to concentrate mechanical vibrations generated from the ceramic vibrator and transmitted through the nozzle body, and air from which air is introduced from the outside An inlet is formed, and a coating material inflow path for guiding the coating material transmitted through the first and second flow paths to the distal end of the transducer may be formed.

In the ultrasonic nozzle for stent coating according to the embodiment, the horn may be made of titanium.

In the ultrasonic nozzle for stent coating according to the embodiment, the several MHz frequency may be a 1 MHz frequency.

According to the ultrasonic nozzle for stent coating according to an embodiment of the present invention, a ceramic vibrator configured to receive ultrasonic waves of several MHz frequency through an electrode plate and change them into mechanical vibrations; A nozzle body provided with a space for inserting the ceramic vibrator, a first flow path through which a coating material is injected, and a space for mounting the electrode plate; And a second flow path mounted on the front end of the nozzle body and communicating with the first flow path, concentrating the mechanical vibration transmitted through the nozzle body, and using the concentrated mechanical vibration and the inflow force of air introduced from the outside. By comprising a; horn (horn) configured to spray the coating material flowing through the second flow path, there is an excellent effect that is suitable for coating a small and precise stent.

1 is a front view showing the overall configuration of an ultrasonic nozzle for stent coating according to an embodiment of the present invention.
FIG. 2 is a cross-sectional view showing the tip of the horn of FIG. 1.

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

1 is a front view showing the overall configuration of an ultrasonic nozzle for stent coating according to an embodiment of the present invention, and FIG. 2 is a cross-sectional view showing the tip of the horn of FIG. 1.

The ultrasonic nozzle for stent coating according to an embodiment of the present invention includes a ceramic vibrator 114, a nozzle body 110 and a horn 120, as shown in FIGS. 1 and 2.

The ceramic vibrator 114 serves to receive ultrasonic waves having a frequency of several MHz (approximately 1 MHz) from an external ultrasonic oscillator through the electrode plate 112 and change them to mechanical vibration. The ceramic vibrator 114 is embedded in the nozzle body 110 so that mechanical vibration generated therefrom is transmitted to the nozzle body 110.

The nozzle body 110 is provided with a space for inserting the ceramic vibrator 114 therein, a first flow path (not shown) through which the coating material is injected and moved from the fluid supply pump is formed, and the electrode plate 112 A space for mounting is provided, and a horn 120 is mounted at the tip.

The horn 120 is mounted at the tip of the nozzle body 110 and has a second flow path (not shown) communicating with the first flow path, generated by the ceramic vibrator 114 and transmitted through the nozzle body 110 It serves to spray the coating material flowing through the second flow path by concentrating the mechanical vibration to be used and using the concentrated mechanical vibration and the inflow force of air introduced from the outside.

In more detail, as shown in FIG. 2, a transducer 122 that concentrates mechanical vibrations generated from the ceramic vibrator 114 and transmitted through the nozzle body 110 to the tip of the horn 120. Is built-in, an air inlet 124 is formed to induce air to flow in from the outside, and a coating material inflow path leading the coating material transmitted through the first and second flow paths to the front end portion 122a of the transducer 122 ( 126) is formed.

In addition, since the horn 120 is made of titanium, it is resistant to heat.

Hereinafter, the operation of the ultrasonic nozzle for stent coating according to the embodiment of the present invention configured as described above will be described.

First, when ultrasonic waves having a frequency of approximately 1 MHz are applied to the ceramic vibrator 114 through the electrode plate 112, mechanical vibration is generated, and when it is transmitted to the transducer 122 through the nozzle body 110, the transducer 122 ), the vibrations are collected and concentrated. At this time, the coating material injected through the nozzle body 110 is injected into the front end portion 122a of the transducer 122 through the first and second flow paths and the coating material inflow path 126, and air through the air inlet 124 Is authorized.

Subsequently, the coating material injected into the distal end portion 122a of the transducer 122 is finely sprayed through the outlet of the horn 120 by air pressure and concentrated vibration from the transducer 122, thereby precisely stenting. And can be finely coated.

According to the ultrasonic nozzle for stent coating according to an embodiment of the present invention, a ceramic vibrator configured to receive ultrasonic waves having a frequency of several MHz through an electrode plate and change them into mechanical vibrations; A nozzle body provided with a space for inserting the ceramic vibrator, a first flow path through which a coating material is injected, and a space for mounting the electrode plate; And a second flow path mounted on the front end of the nozzle body and communicating with the first flow path, concentrating the mechanical vibration transmitted through the nozzle body, and using the concentrated mechanical vibration and the inflow force of air introduced from the outside. By comprising a; horn (horn) configured to spray the coating material flowing through the second flow path, it is possible to finely and precisely coat a small and precise stent.

In the drawings and the specification, an optimal embodiment has been disclosed, and specific terms have been used, but this is only for the purpose of explaining an embodiment of the present invention and is used to limit the meaning or limit the scope of the present invention described in the claims. It is not done. Therefore, those skilled in the art will appreciate that various modifications and other equivalent embodiments are possible. Therefore, the true technical protection scope of the present invention should be determined by the technical spirit of the appended claims.

110: nozzle body
112: electrode plate
114: ceramic oscillator
120: horn
122: transducer
122a: tip of transducer
124: air inlet
126: coating material inlet

Claims (4)

A ceramic vibrator 114 configured to receive ultrasonic waves at a frequency of several MHz through the electrode plate 112 and convert them into mechanical vibrations;
A nozzle body 110 in which a space for inserting the ceramic vibrator is provided, a first flow path through which a coating material is injected is formed, and a space for mounting the electrode plate is provided; And
A second flow path mounted on the tip of the nozzle body and communicating with the first flow path is formed to concentrate mechanical vibrations transmitted through the nozzle body, and utilizes the concentrated mechanical vibrations and the inflow force of air introduced from the outside. An ultrasonic nozzle for stent coating including a horn (120) configured to spray a coating material flowing through the second flow path. According to claim 1,
The front end of the horn 120
A transducer 122 configured to concentrate mechanical vibrations generated from the ceramic vibrator 114 and transmitted through the nozzle body 110 is built in,
An air inlet 124 through which air flows from outside is formed,
An ultrasonic nozzle for stent coating in which a coating material inflow path 126 for guiding the coating material transmitted through the first and second flow paths to the front end portion 122a of the transducer 122 is formed. According to claim 1,
The horn 120 is an ultrasonic nozzle for stent coating made of titanium. According to claim 1,
The several MHz frequency is 1 MHz frequency ultrasonic nozzle for stent coating.

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