WO2018044134A1 - Blood vessel puncturing guide device attached to ultrasonic probe and blood vessel puncturing system using same - Google Patents

Abstract

According to a blood vessel puncturing guide device attached to an ultrasonic probe and a blood vessel puncturing system using the same, presented by the present invention, a syringe needle guide part of the blood vessel puncturing guide device attached to the ultrasonic probe is configured in a tongs shape such that a syringe needle fixing hole is open when the syringe needle guide part is held and pressed. Therefore, the guide device can be easily removed from the syringe needle after a wire is accurately inserted into a blood vessel, thereby successfully puncturing the blood vessel under ultrasonic guidance. Further, the guide device can be removed without swaying, thus allowing a next surgery to be efficiently performed while the syringe needle is inserted in the blood vessel.

Description

Blood vessel puncture guide device attached to the ultrasonic probe and blood vessel puncture system using the same

The present invention relates to a blood vessel puncture system, and more particularly, to a blood vessel puncture guide device attached to an ultrasound probe and a blood vessel puncture system using the same.

Ultrasonic (ultrasonography) is an imaging device used in the treatment of patients, with the characteristic that it can be diagnosed non-invasively, the use of the ultrasound is increasing gradually as the resolution of the image is greatly improved and the ultrasonic device for various purposes is produced. have. In general, the abdomen, digestive system and obstetrics and gynecology has been used a lot for diagnostic purposes, but is not limited to the field is gradually expanding the application area, and the situation is rapidly expanding to the area of vascular examination and vascular intervention procedure.

Vessel punctures typically include arterial intubation into the radial and brachial arteries for continuous monitoring of arterial blood pressure, central venous intubation for massive fluid supply or monitoring of bodily fluids, and various interventional vessel procedures. Arterial intubation.

In the past, the above procedures were performed based on anatomical knowledge and hand sensation without ultrasonic equipment, but now, with the development of ultrasound, many hospitals perform vascular puncture under ultrasound guidance.

However, even with the use of ultrasound, the procedure may fail due to various reasons, which may be caused by incorrect positioning of the ultrasound probe and the needle, or embarrassment due to the blood flowing behind the needle when the needle enters the blood vessel correctly. This can be caused by missing a location.

In addition, when puncturing blood vessels under ultrasonic guidance, the blood vessels should be placed after the needle is placed in the vertical direction of the ultrasonic probe with one hand and the needle is inserted into the skin using the other hand as the center of the ultrasonic probe. After the puncture of the vessel successfully, the wire is inserted into the vessel through the needle or the catheter surrounding the needle is pushed into the vessel.

In this case, conventionally, after the needle is inserted, the hand holding the probe is released and the wire is inserted through the needle or the catheter surrounding the needle is pushed into the blood vessel. The needle may come out of the blood vessel, and at the moment of pushing the wire or catheter into the blood vessel, the ultrasonic probe must be placed and the ultrasound cannot be confirmed. In addition, the needle must be removed from the blood vessel to remove the probe from the skin. That is, the structure of the guide system cannot be removed with the needle inserted in the blood vessel, which makes it difficult to use for puncture and related procedures. There is a limit. Korean Patent Laid-Open Publication No. 2001-0032747 and Korean Patent Laid-Open Publication No. 10-2007-0061466 disclose prior art documents on a needle insertion guide device and an ultrasound probe for puncture, respectively.

The present invention is proposed to solve the above problems of the conventionally proposed methods, the injection needle guide portion of the vascular puncture guide device attached to the ultrasonic probe is configured in the form of forceps, By allowing the injection needle fixing hole to open, the guide device can be easily removed from the injection needle after the wire has been correctly inserted into the vessel, so that the vascular puncture can be successfully performed under ultrasonic guidance, and the guide device can be removed without shaking. It is an object of the present invention to provide a vascular puncture guide device attached to an ultrasonic probe, and a vascular puncture system using the same, which can efficiently proceed to the next procedure while the needle is inserted into a blood vessel.

In addition, the present invention provides a blood vessel puncture system, comprising a blood backflow prevention chamber coupled to the injection needle, and allows the wire to be inserted into the injection needle through the blood backflow prevention chamber, thereby effectively inserting the wire into the blood vessel while A blood vessel puncture guide device attached to an ultrasound probe and a vascular puncture system using the same, which can prevent blood backflow through the needle, thereby minimizing unnecessary bleeding and consequent contamination, thereby consequently increasing the efficiency of the vascular puncture procedure. To provide another purpose.

According to a feature of the present invention for achieving the above object, the vascular puncture guide device attached to the ultrasonic probe,

A probe mounting unit attached directly to the ultrasonic probe to fix the ultrasonic probe; And

It is coupled to the side of the probe mounting portion, characterized in that the injection needle is directly mounted to include an injection needle guide portion for guiding the injection needle to the target blood vessel.

Preferably, the probe mounting portion,

The size is formed differently according to the type of the ultrasonic probe, and may be attached to the ultrasonic probe to be detachable.

Preferably, the injection needle guide portion,

The injection needle may be guided to insert the injection needle into the skin and blood vessel to which the ultrasound probe is applied.

Preferably, the injection needle guide portion,

A cylindrical needle fixing hole in which the injection needle is fixed may be provided.

More preferably, the injection needle guide portion,

The injection needle fixing hole may be configured in the form of tongs to be removed from the injection needle is opened.

Still more preferably, the injection needle guide portion,

A coupling member coupled directly to the side end of the probe mounting portion;

An upper guide part connected to an upper portion of the coupling member and having one end formed in a semi-cylindrical shape; And

It is connected to the lower portion of the coupling member and includes a lower guide portion having one end formed in a semi-cylindrical shape,

One end of the upper guide portion and one end of the lower guide portion may contact to form the cylindrical injection needle fixing hole.

Even more preferably,

The other end of the upper guide portion and the other end of the lower guide portion is connected to the spring, the cylindrical shape is formed on one end of the upper guide portion and the lower guide portion when the pressure is applied to the other end of the upper guide portion and the other end of the lower guide portion. The injection needle fixing hole can be opened.

In addition, a vascular puncture system using a vascular puncture guide device attached to the ultrasonic probe, according to a feature of the present invention for achieving the above object,

An injection needle inserted into a blood vessel in the skin to which the ultrasound probe is applied;

A blood vessel puncture guide device attached to the ultrasound probe and configured to guide the injection needle into the blood vessel; And

And a blood backflow prevention chamber coupled to the injection needle to prevent backflow of blood through the injection needle.

Preferably, the blood vessel puncture guide device,

A probe mounting unit attached directly to the ultrasonic probe to fix the ultrasonic probe; And

Coupled to the side end of the probe mounting portion, the injection needle may be directly mounted to include an injection needle guide portion for guiding the injection needle to the target blood vessel.

More preferably, the probe mounting portion,

Sizes may be formed differently according to the type of the ultrasonic probe.

More preferably, the probe mounting portion,

The ultrasonic probe may be attached to be detachable.

More preferably, the injection needle guide portion,

The injection needle may be guided to insert the injection needle into the skin and blood vessel to which the ultrasound probe is applied.

More preferably, the injection needle guide portion,

A cylindrical needle fixing hole in which the injection needle is fixed may be provided.

Still more preferably, the injection needle guide portion,

The injection needle fixing hole may be configured in the form of tongs to be removed from the injection needle is opened.

Even more preferably, the injection needle guide portion,

A coupling member coupled directly to the side end of the probe mounting portion;

An upper guide part connected to an upper portion of the coupling member and having one end formed in a semi-cylindrical shape; And

It is connected to the lower portion of the coupling member and includes a lower guide portion having one end formed in a semi-cylindrical shape,

One end of the upper guide portion and one end of the lower guide portion may contact to form the cylindrical injection needle fixing hole.

Even more preferably,

The other end of the upper guide portion and the other end of the lower guide portion is connected to the spring, the cylindrical shape is formed on one end of the upper guide portion and the lower guide portion when the pressure is applied to the other end of the upper guide portion and the other end of the lower guide portion. The injection needle fixing hole can be opened.

More preferably, the blood backflow prevention chamber,

Cylindrical outer tube made of a transparent material so that the blood rise is visible to the naked eye;

An injection needle coupling portion formed at a lower end of the outer tube and coupled to an end of the injection needle;

A cylindrical inner tube in which a through hole is formed to enter a terminal of the injection needle and pass a wire inserted into a blood vessel; And

The outer rim may contact the inner circumferential surface of the outer tube, the inner rim may be formed in the shape of a disc to contact the outer circumferential surface of the inner tube to include a valve to prevent backflow of blood through the needle.

Even more preferably, the injection needle coupling portion,

Screw grooves may be formed on the inner circumferential surface to engage with the injection needle.

Even more preferably,

The injection needle coupling portion and the lower end of the inner tube may be spaced a predetermined distance to fill the blood.

Even more preferably, the valve,

It may be made of an elastic material.

According to the blood vessel puncture guide device attached to the ultrasonic probe proposed in the present invention and a blood vessel puncture system using the same, the injection needle guide part of the blood vessel puncture guide device attached to the ultrasound probe is configured in the form of a forceps, When pressure is applied, the needle holding hole is opened, so that the guide device can be easily removed from the needle after the wire is correctly inserted into the blood vessel so that the blood vessel puncture can be successfully performed under ultrasonic guidance, and the guide device without shaking Can be removed so that the next procedure can be efficiently performed while the needle is plugged into the blood vessel.

According to the present invention, the blood vessel puncture system includes a blood backflow prevention chamber coupled to the needle, and allows the wire to be inserted into the injection needle through the blood backflow prevention chamber, thereby effectively inserting the wire into the blood vessel. Preventing blood backflow through the needle can minimize unnecessary bleeding and consequent contamination, thereby increasing the efficiency of vascular puncture procedures.

1 is a view showing a schematic configuration of a blood vessel puncture guide device attached to the ultrasonic probe according to an embodiment of the present invention.

Figure 2 is a view showing the injection needle guide portion of the blood vessel puncture guide device attached to the ultrasonic probe according to an embodiment of the present invention.

Figure 3 is a view showing a specific configuration of the injection needle guide portion of the blood vessel puncture guide device attached to the ultrasonic probe according to an embodiment of the present invention.

4 is a view illustrating a state in which an injection needle guide part of a blood vessel puncture guide device attached to an ultrasound probe according to an embodiment of the present invention is removed from an injection needle;

FIG. 5 is a diagram illustrating a schematic configuration of a blood vessel puncture system using a blood vessel puncture guide device attached to an ultrasonic probe according to an embodiment of the present invention. FIG.

FIG. 6 illustrates a blood backflow prevention chamber of a blood vessel puncture system using a blood vessel puncture guide device attached to an ultrasonic probe according to an embodiment of the present invention. FIG.

FIG. 7 is a view illustrating a space in which an inner tube and an injection needle coupling part of a blood backflow prevention chamber of a blood vessel puncture system using a blood vessel puncture guide device attached to an ultrasonic probe are spaced apart from each other; FIG.

8 is a view for explaining the insertion of the wire through the blood backflow prevention chamber and the injection needle of the blood vessel puncture system using a blood vessel puncture guide device attached to the ultrasonic probe according to an embodiment of the present invention.

<Description of the code>

10: ultrasonic probe

20: wire

100: blood vessel puncture guide device

110: probe mounting part

130: injection needle guide portion

131: coupling member

133: upper guide part

135: lower guide part

137: spring

139: injection needle fixing hole

200: injection needle

300: blood backflow prevention chamber

310: outer tube

330: injection needle coupling

331: screw groove

350: inner tube

370: valve

371: first valve

373: second valve

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. However, in describing the preferred embodiment of the present invention in detail, if it is determined that the detailed description of the related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. In addition, the same reference numerals are used throughout the drawings for parts having similar functions and functions.

In addition, in the specification, when a part is 'connected' to another part, it is not only 'directly connected' but also 'indirectly connected' with another element in between. Include. In addition, the term "comprising" a certain component means that the component may further include other components, except for the case where there is no contrary description.

1 is a view showing a schematic configuration of a blood vessel puncture guide device 100 attached to the ultrasonic probe 10 according to an embodiment of the present invention. As shown in FIG. 1, the vascular puncture guide device 100 attached to the ultrasonic probe 10 according to an embodiment of the present invention includes a probe mounting unit 110 and an injection needle guide unit 130. Can be.

The probe mounting unit 110 may be directly attached to the ultrasonic probe 10 to fix the ultrasonic probe 10. More specifically, the probe mounting unit 110 may be formed in different sizes according to the type of the ultrasonic probe 10, and may be attached to the ultrasonic probe 10 to be detachable.

In addition, according to the exemplary embodiment, the probe mounting unit 110 may be formed of a material having a frictional inner surface to fix the ultrasonic probe 10 more effectively.

The injection needle guide unit 130 is coupled to the side end of the probe mounting unit 110, and the injection needle 200 may be directly mounted to guide the injection needle 200 to the target blood vessel.

More specifically, the injection needle guide unit 130 may guide the injection needle 200 to insert the injection needle 200 into the skin and blood vessel to which the ultrasound probe 10 is applied.

In addition, the coupling angle between the injection needle guide 130 and the probe mounting unit 110 may be formed differently according to the depth of the target blood vessel. Specifically, when the depth of the target blood vessel is relatively deep, the injection needle guide unit 130 and the probe mounting unit 110 may be coupled to increase the angle formed by the surface of the skin and the injection needle 200. When the depth of the blood vessel is relatively shallow, the angle formed between the skin surface and the injection needle 200 may be combined to be smaller.

Detailed configuration of the injection needle guide unit 130 will be described below with reference to FIGS. 2 to 4.

2 is a view showing the injection needle guide portion 130 of the blood vessel puncture guide device 100 attached to the ultrasonic probe 10 according to an embodiment of the present invention. As shown in FIG. 2, the injection needle guide unit 130 of the vascular puncture guide device 100 attached to the ultrasound probe 10 according to an embodiment of the present invention has a cylinder in which the injection needle 200 is fixed. The injection needle fixing hole 139 may be provided. That is, the injection needle 200 may be fixed to the injection needle fixing hole 139.

The injection needle fixing hole 139 may have a different size depending on the size of the injection needle 200 to be fixed.

In addition, the injection needle guide part 130 may be configured in the form of a forceps so that the injection needle fixing hole 139 is opened to be removed from the injection needle 200. Detailed configuration of the injection needle guide unit 130 configured in the form of forceps will be described in detail with reference to FIGS. 3 and 4.

3 is a view showing a specific configuration of the injection needle guide unit 130 of the blood vessel puncture guide device 100 attached to the ultrasonic probe 10 according to an embodiment of the present invention, Figure 4 is a view of the present invention FIG. Is a view illustrating a state in which the injection needle guide unit 130 of the blood vessel puncture guide device 100 attached to the ultrasonic probe 10 is removed from the injection needle 200 according to an embodiment. As shown in Figure 3 and 4, the injection needle guide portion 130 of the blood vessel puncture guide device 100 attached to the ultrasonic probe 10 according to an embodiment of the present invention is configured in the form of forceps, It may be removed from the injection needle 200.

In more detail, the injection needle guide part 130 may include a coupling member 131, an upper guide part 133, and a lower guide part 135.

In this case, the coupling member 131 may be directly coupled to the side end of the probe mounting unit 110. That is, the side end of the probe mounting unit 110 and the injection needle guide unit 130 may be coupled through the coupling member 131.

The upper guide portion 133 is connected to the upper portion of the coupling member 131, one end may be formed in a semi-cylindrical shape, and the lower guide portion 135 is connected to the lower portion of the coupling member 131 and one end is half It may be formed in a cylindrical shape.

Here, one end of the upper guide part 133 and one end of the lower guide part 135, that is, one end formed in a semi-cylindrical shape may contact each other to form a cylindrical injection needle fixing hole 139.

In addition, the other end of the upper guide portion 133 and the other end of the lower guide portion 135 is connected by a spring 137, the other end of the upper guide portion 133 and the other end of the lower guide portion 135 to hold the pressure In addition, a cylindrical injection needle fixing hole 139 formed at one end of the upper guide part 133 and the lower guide part 135 may be opened.

That is, when pressure is applied by pressing the other end of the upper guide part 133 and the lower guide part 135, the injection needle fixing hole 139 formed on the opposite side is opened to allow the vascular puncture guide device 100 to be released from the injection needle 200. It can be easily removed.

As described above, according to the vascular puncture guide device 100 proposed in the present invention, the injection needle guide unit 130 of the vascular puncture guide device 100 attached to the ultrasonic probe 10 is configured in the form of a forceps, and thus the injection needle. By holding the guide unit 130 and applying pressure, the needle fixing hole 139 opens so that the guide device 100 can be easily removed from the needle 200 after the wire 20 is correctly inserted into the blood vessel. It is possible to successfully perform vascular puncture under ultrasonic induction, and the guide device 100 can be removed without shaking, so that the next procedure can be efficiently performed while the injection needle 200 is inserted into the blood vessel.

5 is a diagram illustrating a schematic configuration of a blood vessel puncture system using the blood vessel puncture guide device 100 attached to the ultrasonic probe 10 according to an embodiment of the present invention. As shown in FIG. 5, the vascular puncture system using the vascular puncture guide device 100 attached to the ultrasound probe 10 according to an embodiment of the present invention is applied to blood vessels in the skin to which the ultrasound probe 10 is applied. It may be configured to include the injection needle 200, the blood vessel puncture guide device 100, and the blood backflow prevention chamber 300 to be inserted.

That is, the blood backflow prevention chamber 300 coupled to the blood vessel puncture guide device 100 for guiding the injection needle 200 and the injection needle 200 to prevent rapid bleeding due to the backflow of blood through the injection needle 200. ) May be included.

In this case, the specific configuration of the blood vessel puncture guide device 100 is the same as described above with reference to FIGS. 1 to 4, and will be omitted below.

Hereinafter, a detailed configuration of the blood backflow prevention chamber 300 will be described with reference to FIGS. 6 to 8.

FIG. 6 is a diagram illustrating a blood backflow prevention chamber 300 of a blood vessel puncture system using the blood vessel puncture guide device 100 attached to the ultrasonic probe 10 according to an embodiment of the present invention. As shown in FIG. 6, the blood backflow prevention chamber 300 of the blood vessel puncture system using the blood vessel puncture guide device 100 attached to the ultrasonic probe 10 according to an embodiment of the present invention is an external tube 310. ), The injection needle coupling portion 330, the inner tube 350, and the valve 370.

The outer tube 310 may be made of a transparent material so that the blood is filled with the naked eye.

The injection needle coupling unit 330 may be formed at the lower end of the outer tube 310 and may be coupled to the end of the injection needle 200. In this case, the injection needle coupling portion 330 may be formed with a screw groove 331 on the inner circumferential surface to be coupled to the injection needle 200.

The inner tube 350 may have a cylindrical shape in which a through hole for entering the terminal of the injection needle 200 and passing the wire 20 inserted into the blood vessel is formed. That is, the inner tube 350 may be provided inside the outer tube 310, and a through hole through which the wire 20 may pass may be formed.

The valve 370 may include a first valve 371 and a second valve 373. More specifically, the first valve 371 may be formed in a disc shape such that the outer edge contacts the inner circumferential surface of the outer tube 310 and the inner edge contacts the outer circumferential surface of the inner tube 310. The valve 373 may have a disc shape in which an outer edge thereof is in contact with an inner circumferential surface of the inner tube 350 and a hole having a minute size is formed so that the wire 20 passes through the center thereof.

As such, the valve 370 is provided in the interior of the inner tube 350 and in the space between the inner tube 350 and the outer tube 310, and prevents backflow of blood through the injection needle 200. have. In addition, according to the embodiment, it may be made of an elastic material.

7 is an inner tube 350 and an injection needle coupling part of the blood backflow prevention chamber 300 of the vascular puncture system using the vascular puncture guide device 100 attached to the ultrasonic probe 10 according to an embodiment of the present invention. 330 is a spaced apart view, and FIG. 8 is a blood backflow prevention chamber of the blood vessel puncture system using the blood vessel puncture guide device 100 attached to the ultrasonic probe 10 according to an embodiment of the present invention. 300 is a view illustrating a state in which the wire 20 is inserted through the injection needle 200. 7 and 8, the injection needle of the blood backflow prevention chamber 300 of the vascular puncture system using the vascular puncture guide device 100 attached to the ultrasound probe 10 according to an embodiment of the present invention. The lower end of the coupling portion 330 and the inner tube 350 may be spaced a predetermined distance so that the blood rises.

That is, there is a gap in the lower end of the needle coupling portion 330 and the inner tube 350 coupled to the injection needle 200, the blood flowing back through the injection needle 200 can be filled in the chamber 300 While the wire 20 passes through the inner tube 350 and enters the end of the injection needle 200, the wire 20 may be smoothly inserted into the blood vessel.

As described above, according to the blood vessel puncture system proposed by the present invention, the blood backflow prevention chamber 300 coupled to the injection needle 200 includes a wire 20 through the blood backflow prevention chamber 300. 200 to be inserted into the blood vessel, while effectively inserting the wire 20 into the blood vessel while preventing blood backflow through the injection needle 200, thereby minimizing unnecessary bleeding and contaminants therein, resulting in vascular puncture. It can increase the efficiency of.

The present invention described above may be variously modified or applied by those skilled in the art, and the scope of the technical idea according to the present invention should be defined by the following claims.

Claims (20)

As the blood vessel puncture guide device 100 attached to the ultrasonic probe 10, A probe mounting unit 110 attached directly to the ultrasonic probe 10 to fix the ultrasonic probe 10; And Ultrasonic waves, characterized in that coupled to the side end of the probe mounting portion 110, the injection needle 200 is directly mounted to guide the injection needle 200 to guide the injection needle 200 to the target blood vessel, Blood vessel puncture guide device attached to the probe. The method of claim 1, wherein the probe mounting unit 110, The size is formed differently according to the type of the ultrasonic probe 10, characterized in that attached to the ultrasonic probe 10 to be detachable, vascular puncture guide device attached to the ultrasonic probe. The method of claim 1, wherein the injection needle guide portion 130, And guide the injection needle (200) such that the injection needle (200) is inserted into the skin and blood vessel to which the ultrasound probe (10) is applied. The method of claim 1, wherein the injection needle guide portion 130, Cylindrical puncture guide device attached to the ultrasonic probe, characterized in that the injection needle fixing hole (139) of the cylindrical shape is fixed to the injection needle 200 is provided. The method of claim 4, wherein the injection needle guide portion 130, The injection needle fixing hole (139) is opened to be removed from the injection needle 200, characterized in that configured in the form of forceps, blood vessel puncture guide device attached to the ultrasonic probe. The method of claim 5, wherein the injection needle guide portion 130, Coupling member 131 is directly coupled to the side end of the probe mounting unit 110; An upper guide part 133 connected to an upper portion of the coupling member 131 and having one end formed in a semi-cylindrical shape; And It is connected to the lower portion of the coupling member 131 and includes a lower guide portion 135, one end of which is formed in a semi-cylindrical shape, One end of the upper guide portion 133 and one end of the lower guide portion 135 are in contact with each other to form the injection needle fixing hole (139) of the cylindrical shape, blood vessel puncture guide device attached to the ultrasonic probe. The method of claim 6, The other end of the upper guide portion 133 and the other end of the lower guide portion 135 are connected by a spring 137, and grips the other end of the upper guide portion 133 and the other end of the lower guide portion 135 When the pressure is applied, the needle injection hole 139 of the cylindrical shape formed in one end of the upper guide portion 133 and the lower guide portion 135 is opened, blood vessel puncture guide device attached to the ultrasonic probe . As a vascular puncture system using the vascular puncture guide device 100 attached to the ultrasonic probe 10, An injection needle 200 inserted into a blood vessel in the skin to which the ultrasound probe 10 is applied; A blood vessel puncture guide device (100) attached to the ultrasound probe (10) to guide the injection needle (200) into the blood vessel; And It is coupled to the injection needle 200, characterized in that it comprises a blood backflow prevention chamber 300 for preventing the back flow of blood through the injection needle 200, using a vascular puncture guide device attached to the ultrasonic probe Vascular puncture system. According to claim 8, The blood vessel puncture guide device 100, A probe mounting unit 110 attached directly to the ultrasonic probe 10 to fix the ultrasonic probe 10; And Ultrasonic waves, characterized in that coupled to the side end of the probe mounting portion 110, the injection needle 200 is directly mounted to guide the injection needle 200 to guide the injection needle 200 to the target blood vessel, A vascular puncture system using a vascular puncture guide device attached to a probe. The method of claim 9, wherein the probe mounting unit 110, Vascular puncture system using a blood vessel puncture guide device attached to the ultrasonic probe, characterized in that the size is formed differently according to the type of the ultrasonic probe (10). The method of claim 9, wherein the probe mounting unit 110, Vascular puncture system using a vascular puncture guide device attached to the ultrasonic probe, characterized in that attached to the ultrasonic probe 10 to be detachable. The method of claim 9, wherein the injection needle guide portion 130, The vascular puncture system using the vascular puncture guide device attached to the ultrasound probe, characterized in that for guiding the injection needle 200 so that the injection needle 200 is inserted into the skin and blood vessel to which the ultrasound probe 10 is applied. . The method of claim 9, wherein the injection needle guide portion 130, Vascular puncture system using a blood vessel puncture guide device attached to the ultrasonic probe, characterized in that the injection needle fixing hole (139) of the cylindrical shape is fixed to the injection needle (200) is provided. The method of claim 13, wherein the injection needle guide portion 130, Vascular puncture system using a vascular puncture guide device attached to the ultrasonic probe, characterized in that the injection needle fixing hole (139) is opened to be configured in the form of forceps to be removed from the injection needle (200). The method of claim 14, wherein the injection needle guide portion 130, Coupling member 131 is directly coupled to the side end of the probe mounting unit 110; An upper guide part 133 connected to an upper portion of the coupling member 131 and having one end formed in a semi-cylindrical shape; And It is connected to the lower portion of the coupling member 131 and includes a lower guide portion 135, one end of which is formed in a semi-cylindrical shape, One end of the upper guide portion 133 and one end of the lower guide portion 135 are in contact with each other to form a cylindrical injection needle fixing hole 139, blood vessel puncture guide device attached to the ultrasonic probe Vascular puncture system used. The method of claim 15, The other end of the upper guide portion 133 and the other end of the lower guide portion 135 are connected by a spring 137, and grips the other end of the upper guide portion 133 and the other end of the lower guide portion 135 When the pressure is applied, the needle injection hole 139 of the cylindrical shape formed in one end of the upper guide portion 133 and the lower guide portion 135 is opened, blood vessel puncture guide device attached to the ultrasonic probe Vascular puncture system using the. The method of claim 9, wherein the blood backflow prevention chamber 300, Cylindrical outer tube 310 made of a transparent material so that the blood rise is visible to the naked eye; An injection needle coupling part 330 formed at a lower end of the outer tube 310 and coupled to an end of the injection needle 200; A cylindrical inner tube 350 in which a through hole 139 is formed to enter the end of the injection needle 200 and pass the wire 20 inserted into the blood vessel; And The outer edge is in contact with the inner circumferential surface of the outer tube 310, the inner edge is in contact with the outer circumferential surface of the inner tube 350 has a first valve 371, and the outer edge is the inner tube ( And a second valve 373 in the form of a disc, which is in contact with the inner circumferential surface of 350 and has a hole having a size small enough to pass the wire 20 in the center thereof, Vascular puncture system using a blood vessel puncture guide device attached to the ultrasound probe, characterized in that it comprises a valve (370) to prevent backflow. The method of claim 17, wherein the injection needle coupling portion 330, A blood vessel puncture system using a blood vessel puncture guide device attached to an ultrasonic probe, characterized in that a screw groove (331) is formed on the inner circumferential surface to be coupled to the injection needle (200). The method of claim 17, The injection needle coupling portion (330) and the lower end of the inner tube 350 is characterized in that spaced apart a predetermined distance so that the blood filling, blood vessel puncture system using a blood vessel puncture guide device attached to the ultrasound probe. The method of claim 17, wherein the valve 370, A blood vessel puncture system using a blood vessel puncture guide device attached to an ultrasonic probe, characterized in that the elastic material is configured.

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