JPS63305848A - Ultrasonic probe - Google Patents

Abstract

PURPOSE:To reduce the incident area of ultrasonic beam to the surface of an object to be examined and to observe the interior of the object to be examined in a wide visual field, by arranging vibrator elements in a concave surface state toward the object to be examined in a side surface view state in the vicinity of the leading end surface of a proble. CONSTITUTION:A large number of vibrator elements 3, 3,... are arranged in a concave surface state toward an object 1 to be examined in a side surface view state in the vicinity of the leading end surface of a probe. Therefore, when ultraviolet rays are emitted while the above mentioned vibrator elements 3, 3,... are vibrated, ultrasonic beams 8 are emitted in an inverted fan-shape around point 12. By this mechanism, the visual field up to the point 12 is the inverted fan-shape and an ultrasonic wave image 13 of a fan-shape visual field can be obtained on the picture of a monitor with respect to a pat deeper than the point 12. Further, by mounting an ultrasonic wave coupler 14 to the leading end surface 2 of the probe integrally, the ultrasonic wave image 13 is obtained on the picture of the monitor only by pressing the leading end of the coupler 14 to the surface of the object 1 to be examined.

Description

[Detailed Description of the Invention] [Industrial Application Field] The present invention relates to a convex-type ultrasound probe that emits ultrasonic waves to a subject and receives reflected waves from within the subject in an ultrasound diagnostic apparatus. In particular, the present invention relates to an ultrasonic probe that can reduce the area of incidence of an ultrasonic beam on the surface of a subject and that can view the interior of the subject over a wide field of view.

[Conventional technology]

As shown in FIG. 6, a conventional convex type ultrasonic probe has a large number of strips of a predetermined width formed in the vicinity of the probe tip surface 2 facing the surface of the subject 1. Vibrator element 3, 3. ... were arranged at predetermined intervals so as to be lined up in a convex shape toward the subject 1 side when viewed from the side. In FIG. 6, reference numeral 4 indicates the vibrator elements 3, 3 . ...
A backing material 5 provided behind the rows of the transducer elements 3.3. A matching layer is provided in front of the rows of . . . , and an acoustic lens 6 is provided in front of the matching layer 5. And the above-mentioned vibrator element 3, 3°...
are controlled by an ultrasonic transmitting/receiving section (not shown), and the transducer elements 3, 3 . ... is vibrated to emit an ultrasonic beam 8 in a fan shape with the rear point 7 as the center and receive reflected waves from within the subject 1, thereby creating an ultrasonic image with a fan-shaped field of view as shown in No. 7 @. I was getting 9 on the monitor screen. Note that in FIG. 6, reference numeral 10 is a reflector within the subject 1, and in FIG. 7, reference numeral 10' is an image of the reflector 10.

[Problem that the invention seeks to solve]

However, in such a conventional ultrasonic probe, the transducer elements 3, 3 . . The area of the incident surface 11 of the ultrasonic beam 8 relative to the surface of is as large as the area of the probe tip surface 2 even if the probe tip surface 2 is pressed tightly against the surface of the subject 1. , the above-mentioned vibrator elements 3, 3. ... could not be made smaller than the area of the convex array portion. For example, to obtain an ultrasound image of the heart, an ultrasound probe is placed between the chest ribs of the subject, but the distance between the ribs is not very large, and as shown in Figure 6. A portion of the ribs came within the width range of the probe tip surface 2 shown.

Therefore, the ultrasonic beam 8 emitted in a fan shape may be reflected by the ribs, making it impossible to obtain a sufficient ultrasound image of the heart. This is also the case when examining the brain through a small hole drilled in the skull in neurosurgery, and it may be difficult to obtain an ultrasound image of the desired part of the brain due to the surrounding skull. SUMMARY OF THE INVENTION In order to solve these problems, it is an object of the present invention to provide an ultrasonic probe that can reduce the area of incidence of an ultrasonic beam on the surface of an object to be examined, and that can view the inside of the object with a wide field of view. shall be.

[Means for solving problems]

The invention of this application which solves the above-mentioned problems has a large number of transducer elements formed in a strip shape arranged in a row at predetermined intervals near the tip surface of the probe facing the subject. The purpose of the present invention is to improve an ultrasonic probe that vibrates these transducer elements to emit ultrasonic waves and receive reflected waves. They are arranged in a concave shape toward the subject when viewed from the side.

Further, the second invention provides a method for arranging the transducer elements so as to be arranged in a concave shape toward the subject in a side view in the vicinity of the tip surface of the probe; The device is integrally attached with a tapered ultrasonic coupler that transmits ultrasonic waves emitted in an inverted fan shape from the transducer elements arranged in a concave shape.

[For production]

The ultrasonic probe configured in this way has transducer elements arranged in a concave manner toward the subject near the tip of the probe, in front of the tip of the probe. By emitting an ultrasonic beam in an inverted fan shape centered on a point located at an appropriate distance, the area of incidence of the ultrasonic beam on the surface of the subject can be reduced.

In addition, as described above, the ultrasonic coupler has a tapered shape that is integrally attached to the tip surface of the probe, which has transducer elements arranged in a concave manner toward the subject. By simply pressing the transducer against the surface of the object, the convergence position of the ultrasonic beam emitted from the transducer element in an inverted fan shape can be easily aligned with the surface of the object.

〔Example〕

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

FIG. 1 is an explanatory cross-sectional view showing an embodiment of the ultrasonic probe according to the first invention. This ultrasonic probe is used in an ultrasonic diagnostic device to emit ultrasonic waves to a subject and to receive reflected waves from within the subject, and is, for example, a so-called convex type probe. A large number of transducer elements 3,3.・・・
・are arranged in a row at predetermined intervals. Then, the vibrator elements 3, 3. . . , each transducer element 3.3. ... is provided with a backing material 4 that absorbs ultrasonic waves emitted from the back surface of the transducer elements 3゜3,
In front of the row of... are hard transducer elements 3, 3 degrees...
A matching layer 5 is provided that allows the ultrasound waves emitted from the object to easily enter the inside of the soft subject 1, and furthermore, in front of the matching layer 5, a layer that spreads the ultrasound waves using a medium with different sound propagation speeds is provided. Alternatively, an acoustic lens 6 for concentrating is provided.

Here, in the present invention, the plurality of vibrator elements 3,
3. As shown in FIG. 1, they are arranged in a concave shape toward the subject 1 when viewed from the side in the vicinity of the tip surface 2 of the probe. For example, the vibrator element 3
,3. ... are arranged so that the normal line erected to the surface of the probe converges to a point 12 located at an appropriate distance in front of the tip surface 2 of the probe. In other words, they are arranged concavely on a circular arc of an appropriate radius centered on the point 12 mentioned above. Therefore, the above-mentioned vibrator cords 3, 3. . . is vibrated to emit ultrasonic waves, an ultrasonic beam 8 is emitted in a reverse direction with the above point 12 as the center.

In this state, the vibrator elements 3, 3 . The ultrasonic beams 8, 8, . . . are emitted from the transducer elements 3, 3°, . ... enter the subject 1 through the front point 12, and are reflected as reflected echoes from the internal reflector 10, and the reflected waves pass through the point 12 again and reach the transducer element 3. ,3. ... is received. As a result, as shown in FIG. 2, an ultrasonic image 13 with a reverse field of view up to the point 12 and a sector-shaped field of view deeper than the point 12 can be obtained on the monitor screen. At this time, as shown in FIG. 1, ultrasonic beams 8, 8 . By adjusting the position of the ultrasound probe so that the position of the point 12 where the beams 8, 8, . . .・・・
・The incident area can be reduced.

FIG. 3 is an explanatory cross-sectional view showing an embodiment of the ultrasonic probe according to the second invention, and FIG. 4 is a side view thereof. In order to simplify the explanation, the same components as those in the first invention shown in FIG. 1 are given the same reference numerals, and the explanation thereof will be omitted. In this second invention, an ultrasonic coupler 14 is integrally attached to the probe tip surface 2 in the first invention. The ultrasonic coupler 14 serves as an intermediate material that facilitates the propagation of ultrasonic waves between the probe tip surface 2 and the surface of the subject 1, and is made of, for example, silicone rubber. Vibrator elements 3, 3 . Ultrasonic beams 8, 8 . . . It has an approximately inverted fan-shaped tapered shape so that it can conduct the ultrasonic beam 8.8. ... is made to substantially coincide with the point 12 at which it converges. Then, the root arc-shaped portion is attached to the tip surface 2 of the probe with an adhesive or the like to be integrated.

In order to use the ultrasonic probe of the second invention configured in this manner, the transducer elements 3, 3°, etc. arranged in a concave shape are vibrated by the control of an ultrasonic transmitter/receiver unit (not shown). The ultrasound beams 8, 8 .
. . and press the tip of the ultrasonic coupler 14, which is integrally attached to the tip surface 2 of the probe, against the surface of the subject 1, as shown in FIG. This causes the ultrasonic beams 8, 8 . ... is ultrasonic coupler 1
4 and enters the subject 1 through the point 12 in front, and is reflected as a reflected echo from the reflector 10 inside, and the reflected wave passes through the point 12 again and passes through the ultrasonic coupler 14. conduction inside the vibrator elements 3, 3. ... is received. As a result, an ultrasound image 13 similar to that shown in FIG. 2 is obtained on the monitor screen. In this case, simply by pressing the tip of the ultrasonic coupler 14 against the surface of the subject 1, the transducer elements 3, 3 . Ultrasonic beams 8, 8 . . . Convergence position (1
2) can be easily aligned with the surface of the subject 1.

FIGS. 5(a) to 5(c) are perspective views showing modified examples of the ultrasonic coupler 14. FIG. 2A shows an ultrasonic coupler 14 formed into an inverted conical shape.

FIG. 3(b) also shows the transducer elements 3, 3. . . . The ultrasonic coupler 14 is formed into an elongated tapered shape in response to a long distance to the point 12 in front of the points 12. Furthermore, in FIG. 2(Q), the tip of the ultrasonic coupler 14 formed in the elongated tapered shape is extended in parallel with an appropriate width. In particular, FIG. 5(b) above.

In the case of the ultrasonic coupler 14 having the shape shown in (c),
Suitable for examining the brain through small holes in the skull in neurosurgery.

〔Effect of the invention〕

Since the present invention is configured as described above, the transducer elements 3, 3 .
. . . emits ultrasonic beams 8, 8°, etc. in an inverted fan shape centered on the point 12 in front of the probe tip surface 2, and the point at which the ultrasonic beams 8, 8°, etc. converge. By adjusting the position of the ultrasound probe so that the position 12 is on the surface of the object 1, it is possible to reduce the area of incidence of the ultrasound beams 8, 8°, etc. on the surface of the object 1. can. Therefore, for example, when obtaining an ultrasound image of the heart, the ultrasound beams 8, 8 . By aligning the points 12 where the beams 8, 8, . . . converge, the ultrasonic beams 8, 8, . ... is subject 1
It is possible to obtain a targeted ultrasound image of the heart in a wide field of view. This is also the case when examining the brain through a small hole drilled in the skull in neurosurgery, allowing ultrasound images of the targeted part of the brain to be obtained in a wide field of view without being obstructed by the surrounding skull. .

In addition, in the second invention, the tapered ultrasonic coupler 14 that is integrally attached to the probe tip surface 2 can generate vibrations by simply pressing the tip of the ultrasonic coupler 14 against the surface of the subject 1. The convergence position (12
) can be easily aligned with the surface of the subject 1. Therefore, examinations using ultrasonic images in cardiac or neurosurgery can be performed easily and quickly.

[Brief explanation of the drawing]

FIG. 1 is a cross-sectional explanatory diagram showing an embodiment of the ultrasound probe according to the first invention, FIG. 2 is an explanatory diagram showing an example of an ultrasound image displayed on a monitor screen, and FIG. 4 is a side view thereof, FIGS. 5(a) to 5(c) are perspective views showing modified examples of the ultrasonic coupler, and FIG. The figure is an explanatory cross-sectional view showing a conventional ultrasound probe, and FIG. 7 is an explanatory diagram showing an example of an ultrasound image displayed on a monitor screen in the conventional example. 1... Subject, 2... Probe tip surface, 3...
Vibrator element, 4... Backing material, 5... Matching layer, 6... Acoustic lens, 8... Ultrasonic beam,
10...Reflector, 12...Point in front of probe tip surface, 13...Ultrasonic image, 14...Ultrasonic coupler.

Claims (2)

[Claims] (1) A large number of rectangular transducer elements are arranged in a row at predetermined intervals near the tip of the probe facing the subject, and these transducer elements are vibrated to generate ultrasonic waves. An ultrasonic probe that receives reflected waves as it launches, characterized in that the transducer elements are arranged in a concave shape near the tip of the probe toward the subject when viewed from the side. Ultrasonic probe. (2) A large number of rectangular transducer elements are arranged in a row at predetermined intervals near the tip of the probe facing the subject, and these transducer elements are vibrated to generate ultrasonic waves. In an ultrasonic probe that receives reflected waves as it launches, the transducer elements are arranged in a concave shape near the tip of the probe toward the subject when viewed from the side; An ultrasonic probe characterized in that a tapered ultrasonic coupler is integrally attached to the probe tip surface to transmit ultrasonic waves emitted in an inverted fan shape from the transducer elements arranged in a concave shape. .