JPH0627128Y2 - Puncture attachment for ultrasonic probe and probe - Google Patents

Description

[Detailed Description of the Invention] Industrial field of application The present invention is applied to an ultrasonic diagnostic apparatus for internal observation,
In particular, the present invention relates to an ultrasonic probe to be inserted into a body cavity and a puncture attachment for an ultrasonic probe used for the ultrasonic probe and holding a puncture needle.

2. Description of the Related Art Conventionally, as the ultrasonic probe of this type and a puncture attachment used for this ultrasonic probe, the configurations shown in FIGS. 6 to 8 are known (all hatched portions in each figure are egg-collected). 7 shows a puncture attachment holding a puncture needle for such purposes.

The ultrasonic probe shown in FIG. 6 has an axially symmetric shape, and in the case 50, a shaft portion in which a tip portion 51 containing a transducer (not shown) and a rotation transmission shaft (not shown) for rotationally driving the transducer are housed. A handgrip portion 53, in which a motor 52 (not shown) for rotating the rotation transmitting shaft 52 is housed, is formed in a cylindrical shape, and the respective axes are aligned. Then, the puncture attachment 55, through which the puncture needle 54 is inserted, is supported by the tip portion 51 and the base portion of the shaft portion 52.

In the ultrasonic probe shown in FIGS. 7 (a) and 7 (b), in a case 60, a tip portion 61 containing a transducer and a shaft portion 62 accommodating a rotation transmission shaft for rotationally driving the transducer are formed in the same diameter, The shaft center of the handgrip part 63 in which the motor for rotating the rotation transmission shaft is housed is the above-mentioned tip part.
It is eccentric by W _{2 in} parallel with the axial center of 61 and the shaft portion 62. A puncture attachment 65 that inserts the puncture needle 64 is supported by the tip portion 61 and the tip portion of the handgrip portion 61.

The ultrasonic probe shown in FIGS. 8 (a) and 8 (b) is a shaft of a shaft portion 72 in which a rotation transmission shaft for rotating and driving the transducer is housed in a case 70 with respect to the shaft center of a tip portion 71 containing the transducer. The center of the handgrip 73 in which the motor that rotates the rotation transmission shaft is housed is inclined with respect to the axis of the shaft 72, and the intersection of the axis of the handgrip and the axis of the shaft is inclined. Are located within the shaft portion 72. A puncture attachment 75, through which the puncture needle 74 is inserted, is supported by the tip portion 71 and the base portion of the shaft portion 72.

In each figure, θ ₂ indicates the angle of view (scanning angle).

Problems to be Solved by the Invention Ultrasonic probes used in the body, particularly ultrasonic probes used in body cavities, may use puncture needles 54, 64, 74 for the purpose of egg collection, blood collection, drug solution injection, etc. is there. in this case,
Along with the ultrasonic probe, the puncture attachments 55, 65, 75 integrally supported by the ultrasonic probe are inserted into the body. Therefore, not only when using the ultrasonic probe alone, but also when using the puncture attachments 55, 65, 75 together, the size of the insertion part is as small as possible, it can be used safely, it is easy to handle, and the puncture When the attachments 55, 65, 75 are used together, the structure for easy attachment and detachment of the ultrasonic probe must be used. Further, in order to obtain high image quality, the rotation transmission system must have a simple structure. Further, not only when the ultrasonic probe is used alone, but also when the puncture attachment is used together, the ultrasonic beam scanning surface, that is, the observation surface must be clearly known at hand. Furthermore, sterilization and sanitary rubber bags can be easily attached and detached, and hygiene is required.

However, in the configuration shown in FIG. 6 among the above-mentioned conventional examples, since the axis of the case 50 of the ultrasonic probe and the puncture needle 50 are parallel to each other, the size of the insertion portion with respect to the body cavity is large, and there is a danger during insertion. May be accompanied. Moreover, since the tip of the puncture needle is located off the center of the image, it is difficult to operate. Moreover, since the tip portion 51 is difficult to see, it is difficult to handle. Further, there is a problem that when it is placed on a table, it may fall and be damaged by rolling. Figure 7 (a),
In the configuration shown in (b), since the tip portion 61 has the same diameter as the shaft portion 62, the tip of the puncture needle 64 can be brought closer to the axial center of the case 60 as compared with the configuration shown in FIG. In addition,
The size of the insertion part with respect to the body cavity is large, which may be dangerous during insertion and is difficult to operate. Further, since there is an eccentricity W ₂ between the motor housed in the handgrip portion 63 coaxially therewith and the shaft housed in the shaft portion 62, there is a power transmission means such as a gear between the motor and the shaft. Therefore, there is a problem that the image quality is deteriorated due to the error of the power transmission system. In the configuration shown in FIGS. 8A and 8B, the axial center of the tip portion 71 and the axial center of the shaft portion 72 intersect at a point P ₄
The shaft center of the shaft 72 and the hand grip
Since the axis of 73 is inclined at the intersection P ₃ , power transmission means such as a universal joint is required, and there is a problem that the image quality is deteriorated due to an error in this power transmission system.

The present invention solves the above-mentioned problems of the prior art, allows the size of the insertion portion to be made as small as possible and can be used safely, and is easy to operate and handle. In the case of, the rotation transmission system has a simple structure to provide an ultrasonic probe capable of obtaining stable high image quality by preventing transmission loss and fluctuation, and attaching / detaching to / from the ultrasonic probe. An object is to provide a puncture attachment for an ultrasonic probe that can be easily operated.

Means for Solving the Problems In order to achieve the above-mentioned object, an ultrasonic probe of the present invention has a shaft center of a handgrip part and a shaft part of a shaft part which connects the handgrip part and a tip part containing a transducer. When the puncture attachment having a needle guide tube for inserting the puncture needle is attached, the needle guide tube has an inclination with the heart, the intersection point formed by the two axes is located in the handgrip portion, and The shaft center of the hand grip part and the shaft center of the hand grip part in the same direction with respect to the shaft center of the shaft part respectively, and the shaft center of the needle guide tube and the central axis of the tip part are located in front of the tip part. It is configured to intersect with each other.

And, the axial center of the tip portion containing the transducer is located in the opposite direction to the position where the puncture attachment is attached, with respect to the axial center of the shaft portion, and is configured to move parallel to the axial center of the shaft portion, In addition, a pair of engaging recesses is provided on the shaft side of the tip portion containing the transducer, and a ridge for displaying the ultrasonic beam scanning surface is provided on the outer peripheral surface of the handgrip portion so as to coincide with the scanning surface,
Further, it is preferable to provide a stepped portion having a large diameter on the front end side at the front end of the hand grip portion.

In addition, the puncture attachment of the present invention that uses the ultrasonic probe together has a needle guide tube through which a puncture needle is inserted in order to achieve the above-mentioned object, and at the tip and the base, at the tip of the ultrasonic probe. A claw member that engages with the provided recess for engagement and a holding frame that holds the base of the handgrip portion of the ultrasonic probe are provided.

Further, the claw member bends a claw portion, which is engaged with the engagement concave portion following the engagement portion which engages with the outer peripheral portion of the shaft portion of the ultrasonic probe, in parallel with the axis of the needle guide tube, and A groove is formed on the inner surface of the holding frame so as to fit with a ridge on the outer circumference of the handgrip portion of the ultrasonic probe, and the width of the open portion of the holding frame is formed so as to be wider than the maximum diameter of the cable. , Also, a pair of nuts are provided on both open ends of the holding frame so that the two can be tightened with screws.
Further, the needle guide tube and the holding frame are connected by a plate-like member that curves along the curved surface of the handgrip portion of the ultrasonic probe, and the handgrip is connected to the connection portion of the plate-shaped member with the needle guide tube. It is preferable to form a groove that engages with the ridge of the section.

Effect The ultrasonic probe of the present invention makes the tip of the puncture attachment approach the tip by tilting the axis of the handgrip and the axis of the shaft that connects the handgrip and the tip. Can be supported,
Further, the tip of the puncture needle can be positioned at the center of the image when collecting eggs and the like. Also, by locating the intersection point created by the above two axes in the handgrip part,
In the case of the mechanical scanning probe, the motor in the handgrip portion and the rotation transmission shaft passing through the shaft portion can be coaxially directly connected in the shaft portion with a spatial margin.

Further, in the puncture attachment of the present invention used for the ultrasonic probe, the claw member provided at the tip of the guide tube through which the puncture needle is inserted is engaged with the engaging groove provided at the tip of the ultrasonic probe and is guided. By holding the handgrip part of the ultrasonic probe with the holding frame provided at the base of the tube, the puncture attachment can be supported by the ultrasonic probe, and the puncture needle inserted through the guide tube and the shaft part can be fixed. The angle can be maintained, and the puncture needle can be punctured in the central portion within the observation surface at a predetermined angle.

Example Hereinafter, an example of the present invention will be described.

First, the ultrasonic probe of the present invention will be described. First
1 (a) to 1 (d) show an ultrasonic probe according to an embodiment of the present invention, wherein FIG. 1 (a) is a perspective view, FIG. 1 (b) is a plan view, and FIG.
(c) is a side view and (d) is a bottom view of the tip.

As shown in FIGS. 1 (a) to (d), the case 10 has a thin shaft portion 12 continuously provided on the rear side of the tip portion 11, and a relatively large diameter handgrip portion 13 on the rear side of the shaft portion 12. It is lined up. A transducer (not shown) is built in the tip portion 11, a rotation transmission shaft (not shown) for rotationally driving the transducer is housed in the shaft portion 12, and a motor for rotating the rotation transmission shaft is provided in the hand grip portion 13. (Not shown) is stored. 14 is a cable for power supply. The axis A of the handgrip portion 13 and the shaft portion 12
Has an inclination angle θ ₁ and the intersection point P ₁ formed by the two axes A and B is located in the handgrip portion 13, and
The angle θ _{1 formed} by the two axes A and B widens on the tip 11 side. The axial center C of the tip portion 11 is located between the axial center B of the shaft portion 12 and the axial center A of the handgrip portion 13, and is translated with respect to the axial center B of the shaft portion 12 by an eccentric amount W ₁ . . Then, the ultrasonic waves are emitted from the point P ₂ on the axis in the tip portion 11, and the emission angle is set to θ ₂ . A pair of engaging recesses 15 are formed on the eccentric side of the tip portion 11, that is, on the bottom surface side on the shaft portion 12 side. Since each engaging groove 15 is provided on the curved surface portion whose outer shape changes smoothly, the intersection portion of the walls of the three surfaces having wide opening portions and orthogonal to each other can also have a large spherical surface (even a spherical surface will be described later). Positioning by engagement of the claw member 22 is performed on the wall surface, so there is no problem in terms of function.) The tip portion of the handgrip portion 13 is provided with a step portion 16 having a large diameter on the tip end side, and the handgrip portion 13 on the cable 14 side. The base portion 13a is formed in a cylindrical shape, and an upper surface of the handgrip portion 13 is provided behind the step portion 16 and integrally with a projection 17 for displaying an ultrasonic observation surface, that is, an ultrasonic beam scanning surface. ing.

Next, the puncture attachment according to the first embodiment of the present invention will be described. 2 (a) and 2 (b) show a puncture attachment according to the first embodiment of the present invention. FIG. 2 (a) is a perspective view and FIG. 2 (b) is a partially perspective view in an inverted state. .

This embodiment is suitable for the automatic puncture type, and is shown in FIG.
As shown in (b), the needle guide tube 18 is composed of a small diameter portion 18 on the front side and a large diameter portion 20 on the rear side, and a puncture needle 21 is inserted therethrough. The tip of the small diameter part 19 of the needle guide tube 18 and the large diameter part of the guide tube 18
Bifurcated claw members 22 and a holding frame 23 are attached to the rear ends of the respective members 20. The claw member 22 is made of a linear material having a spring property, and the opening portion of the engaging portion 24 that engages with the outer peripheral portion of the shaft portion 12 of the ultrasonic probe is followed by the small diameter portion of the needle guide tube 18.
A claw portion 25 is formed which is bent substantially parallel to the axis of 19 and is engaged with the engaging recess 15 of the ultrasonic probe. Holding frame
23 is made of a synthetic resin material or the like having a spring property, has an inner diameter capable of being fitted into the cylindrical base portion 13 of the handgrip portion 13 of the ultrasonic probe, and is an opening formed on the side opposite to the large diameter portion 20. Department
26 is formed to be wider than the cable 14 having the maximum diameter, the position regulating portion 27 is formed on the inner periphery of the rear end edge, and the large diameter portion 20 side is engaged with the protrusion 17 of the hand grip portion 13 of the ultrasonic probe. Is formed with a possible engagement groove 28. A pair of nuts 29, 30 are attached to the open end of the holding frame 23. These nuts 29 and 30 are tightened by a fixing screw 31.

Next, the operation of using the ultrasonic probe in combination with the puncture attachment will be described.

As shown in FIGS. 3 (a) and 3 (b), the engaging portion 24 of the claw member 22 of the puncture attachment is engaged with the shaft portion 12 of the ultrasonic probe, and the claw portion 25 is engaged with the engaging concave portion 15. With holding frame 23
Thus, the cylindrical base portion 13a of the hand grip portion 13 of the ultrasonic probe is held, and the engaging groove 28 is engaged with the ridge 17 of the hand grip portion 13. At this time, the cable 26 is
Can be passed through, and the holding work can be easily performed. Then, the open ends of the holding frame 23 can be tightened by the fixing screws 31 using the nuts 29 and 30, and the puncture attachment can be held in a fixed state on the ultrasonic probe. At this time, the axis of the needle guide tube 18 and the axis of the handgrip portion 13 of the puncture attachment are tilted in the same direction with respect to the axis of the shaft portion 12, respectively, and the axis of the needle guide tube 18 and the tip 11 are tilted. The axis of the puncture attachment is set so that the axis of the tip portion 11 and the axis of the tip portion 11 move in parallel to the axis of the shaft portion 12 in the direction opposite to the position where the puncture attachment is attached. Guide tube 18 small diameter part
The tip of 19 can be brought close to the upper surface of the tip 11 of the ultrasonic probe to reduce the insertion portion into the body cavity, and the needle guide tube
The tip of the puncture needle 21 inserted in 18 can be made to approach the axis C at the tip of the tip 11 at an angle θ ₃ , and the tip of the puncture needle 21 can be positioned at the center of the image. Further, since the claw member 22 is formed of the linear material as described above, the claw portion 25 can be completely housed in the engaging recess 15 of the ultrasonic probe so as not to project, and the claw member 25 does not protrude into the body cavity. The danger during insertion can be prevented.

Then, the ultrasonic probe and the puncture attachment can be inserted into the body cavity from the distal end side, and a tomographic image can be projected on the ultrasonic diagnostic apparatus body by the ultrasonic probe.
The egg collection and the like can be performed by the operation of.

Further, when the ultrasonic probe is used alone, the claw member 22 and the holding frame 23 of the puncture attachment may be separated from the ultrasonic probe.

Next, the puncture attachment according to the second embodiment of the present invention will be described. 4 (a) and 4 (b) show a puncture attachment according to a second embodiment of the present invention. FIG. 4 (a) is a perspective view and FIG. 4 (b) is a partially perspective view in an inverted state. .

This embodiment is suitable for a manual puncture type, and is shown in FIG.
As shown in (b), a claw member 22 similar to that of the first embodiment is attached to the tip of a small-diameter needle guide tube 32, and a plate-like member 33 is used at the base of the needle guide tube 32 for the first embodiment. A holding frame 23 similar to the example is attached. The plate member 33 is formed so as to curve along the curved surface of the handgrip portion 13 of the ultrasonic probe, and the needle guide tube 32 in the plate member 33 is curved.
An engaging groove 35 that engages with the protrusion 17 of the handgrip portion 13 of the ultrasonic probe is formed in the connecting portion 34 with.
The other structure is similar to that of the first embodiment.

Then, as in the case of the first embodiment, as shown in FIG.
As shown in (b), the engaging portion 24 of the claw member 22 of the puncture attachment is engaged with the shaft portion 12 of the ultrasonic probe, and the claw portion 25
While engaging the engaging recess 15 and holding the cylindrical base portion 13a of the handgrip portion 13 of the ultrasonic probe by the holding frame 23, the engaging grooves 28, 35 in the protrusion 17 of the handgrip portion 13. Engage. After that, use the nuts 29 and 30 to secure the fixing screw 31.
By tightening the open end of the holding frame 23, the puncture attachment can be held in a fixed state by the ultrasonic probe.

Similar to the first embodiment, the ultrasonic probe and the puncture attachment can be inserted into the body cavity from the distal end side, a tomographic image can be projected on the ultrasonic diagnostic apparatus main body by the ultrasonic probe, and the puncture needle 21 can be manually operated. It is possible to collect eggs. At this time, the engaging groove 35 on the front end side of the plate-like member 33 and the engaging groove 28 of the holding frame 23 on the base side are engaged with the front and rear sides of the ridge 17 to prevent shake and hold in a stable state. Puncture needle
21 operations can be performed easily and surely.

Effect of the Invention As described above, according to the ultrasonic probe of the present invention, the axis of the handgrip part and the axis of the shaft part that connects the handgrip part and the tip part containing the transducer are tilted. And the intersection point formed by the two axes is located in the handgrip part, and the axis of the needle guide tube of the puncture attachment and the axis of the handgrip are respectively with respect to the axis of the shaft part. Tilt in the same direction,
The axis of the needle guide tube and the axis of the tip portion are configured to intersect. In this way, with the shaft center of the hand grip part,
By tilting the axis of the shaft connecting the handgrip and the tip, the tip of the puncture attachment can be brought close to and supported by the tip, and the size of the insertion part can be made as small as possible for safety. Can be used. In addition, the tip of the puncture needle can be positioned in the center of the image when collecting eggs, and the tip is easy to see, so the operation can be performed easily and with peace of mind.
Since it can be prevented from rolling on the table or the like, it can be easily handled. Further, by locating the intersection point formed by the above two axes in the handgrip portion, in the case of a mechanical scanning probe, the motor in the handgrip portion and the rotation transmission shaft passing through the shaft portion are spaced within the shaft portion. Since they can be directly connected on the same axis with a sufficient margin, the rotation transmission system has a simple structure and transmission loss and fluctuation can be prevented, and stable high image quality can be obtained.

Further, the axial center of the distal end portion incorporating the transducer is configured to move in parallel to the axial center of the shaft portion in the direction opposite to the position where the puncture attachment is mounted, thereby further improving the above respective effects. In addition, a pair of engaging recesses is provided on the shaft side of the distal end portion containing the transducer. That is,
Since the engaging recess is provided on the curved surface where the outer shape changes smoothly, the intersection of three walls with wide openings and orthogonal to each other can also have a large spherical surface (even if the surface is spherical, the positioning is a wall surface). There is no problem in terms of functionality because it is done in.)
Therefore, cleaning and disinfection can be easily performed. Also,
Since the protrusion for displaying the ultrasonic beam scanning surface is provided on the outer peripheral surface of the handgrip portion so as to coincide with the inside of the scanning surface, the observation surface can be understood by just holding it in the hand and the operation can be easily performed. . Further, by providing a stepped portion having a large diameter on the tip end side at the tip end portion of the handgrip portion, it is possible to naturally fix the end of the handbag portion with the stepped portion when the rubber bag is covered, for hygiene reasons.

Further, according to the puncture attachment of the present invention, the claw member provided at the tip of the guide tube through which the puncture needle is inserted is engaged with the engaging groove provided at the tip of the ultrasonic probe, and the base of the guide tube is attached. Since the handgrip part of the ultrasonic probe is held by the holding frame provided in the, the puncture attachment is placed at an accurate position with respect to the ultrasonic probe, and
It can be securely supported in a fixed state, can be easily attached and detached, and position reproducibility can be improved.
It is safe because there is no error caused by the operator.

Further, since a groove that fits with the protrusion on the outer circumference of the handgrip portion of the ultrasonic probe is formed on the inner surface of the holding frame, it can be supported in a stable state and the puncturing operation can be performed in a stable state. By forming the holding frame so that the width of the opening of the holding frame is wider than the maximum diameter of the cable,
It is possible to easily attach / detach to / from the ultrasonic probe, and it is possible to securely attach the holding frame by providing a pair of nuts on both open ends of the holding frame and tightening them with screws. Along with this, it can be tightened with screws from any direction, and the needle guide tube and the holding frame are connected by a plate-shaped member that curves along the curved surface of the handgrip part in the ultrasonic probe, and this plate By forming a groove that engages with the ridge of the handgrip portion in the connecting portion of the needle-shaped member with the needle guide tube, it is possible to reliably prevent shake and to perform stable puncture even with vibration due to manual operation. Can be done.

[Brief description of drawings]

1 (a) to 1 (d) show an ultrasonic probe according to an embodiment of the present invention, wherein FIG. 1 (a) is a perspective view, FIG. 1 (b) is a plan view,
The same figure (c) is a side view, the same figure (d) is a bottom view of the tip, and FIG.
(a), (b) shows the puncture attachment in the 1st Example of this invention, the same figure (a) is a perspective view, the same figure (b) is a partial perspective view of the inverted state, FIG. (a) and (b) show the use state in which the ultrasonic probe shown in Fig. 1 and the puncture attachment shown in Fig. 2 are used together, Fig. (a) is a plan view, (b) is a side view,
4 (a) and 4 (b) show a puncture attachment according to a second embodiment of the present invention. FIG. 4 (a) is a perspective view, FIG. 4 (b) is a partially perspective view in an inverted state, FIGS. 5 (a) and 5 (b) show a use state in which the ultrasonic probe shown in FIG. 1 and the puncture attachment shown in FIG. 4 are used in combination. FIG. 5 (a) is a plan view and FIG. 5 (b) is a side view. Fig. 6 is a side view showing a state in which a conventional ultrasonic probe and a puncture attachment are used together, and Figs. 7 (a) and 7 (b)
Shows a state of use in which the ultrasonic probe of another conventional example is also used in combination with a puncture attachment, the same figure (a) is a plan view, the same figure (b)
Shows a side view, and FIGS. 8 (a) and 8 (b) show a use state in which an ultrasonic probe of another conventional example and a puncture attachment are used in combination,
The figure (a) is a plan view and the figure (b) is a side view. 10 …… Case, 11 …… Tip, 12 …… Shaft, 13…
… Handgrip part, 14… Cable, 15… Engagement recess, 16… Step part, 17… Projection, 18… Needle guide tube, 22
...... Claw member, 23 …… Holding member, 28 …… Engagement groove, 29,30
...... Nut, 31 ...... screw, 32 ...... needle guide tube, 33 ...... plate member, 35 ...... engagement groove.

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Masami Kawabuchi, 3-10-1, Higashisanda, Tama-ku, Kawasaki, Kanagawa Matsushita Giken Co., Ltd. (72) Masao Sakagaki, 3 Higashimita, Tama-ku, Kawasaki, Kanagawa Matsushita Giken Co., Ltd. (56) References JP-A-63-43648 (JP, A) Sekikai 64-46012 (JP, U)

Claims (7)

[Scope of utility model registration request] 1. A handgrip part, a tip part containing a mechanical scanning type transducer, and a shaft center of the handgrip part in the handgrip part which is located parallel to or on the center axis of the tip part. When the puncture attachment having a needle guide tube through which the puncture needle is inserted is provided, the shaft center of the needle guide tube having the intersecting axis and the shaft section connecting the distal end section to each other. And the shaft center of the handgrip part are inclined in the same direction with respect to the shaft center of the shaft part, and the shaft center of the needle guide tube and the central axis of the tip part intersect at the tip of the tip part. An ultrasonic probe having the above structure. 2. The ultrasonic probe according to claim 1, wherein the axial center of the tip portion containing the transducer is parallel to the axial center of the shaft portion in the direction opposite to the position where the puncture attachment is mounted. 3. The ultrasonic probe according to claim 1, wherein a protrusion for displaying an ultrasonic beam scanning surface is provided on the outer peripheral surface of the handgrip portion so as to coincide with the scanning surface. 4. The ultrasonic probe according to claim 1, wherein a step portion having a larger diameter than the base portion of the hand grip portion is provided on the tip side of the hand grip portion to which the shaft portion is connected. 5. A pair of needle guide tubes for inserting a puncture needle and a pair of gripping the outer peripheral portion of the shaft portion of the ultrasonic probe according to claim 1 to engage with a concave portion provided at the distal end portion of the ultrasonic probe. A claw member made of a linear material and a holding frame for holding the base portion of the hand grip portion by a ring-shaped member having an opening wider than a cable diameter connected to the base portion of the hand grip portion of the ultrasonic probe are provided. A puncture attachment for an ultrasonic probe, which is characterized in that 6. The holding frame has a pair of nuts at its open end,
The puncture attachment for an ultrasonic probe according to claim 5, wherein the both are fastened with a screw. 7. The ultrasonic probe according to claim 1, which has a groove that curves along the outer periphery of the handgrip portion and fits into the ridge according to claim 3, and has a needle guide tube and a holding frame. The puncture attachment for an ultrasonic probe according to claim 5, comprising a plate-shaped member to be connected.