KR20230032575A - Headgear for Transcranial Doppler - Google Patents

Abstract

The present invention provides a headgear for transcranial ultrasound examination, which allows easy and convenient transcranial ultrasound examination and more accurate measurements, comprising: a rear band unit (10) which surrounds an occiput of a subject (1) from side to side and has a first slot hole (11) extending left and right; a pair of side band units (20, 21) which are provided at both ends of the rear band unit (10) and have a second slot hole (22) extending back and forth; a front band unit (30) which surrounds a forehead of the subject (1) from a front end of each of the side band units (20, 21) and has a third slot hole (34) extending left and right; a pair of central band units (40, 43) which extend from middle portions of the pair of lateral band units (20, 21) to overlap and surround a crown of the subject (1) and have fourth slot holes (41, 44) and teeth (42, 45) formed on inner walls opposing each other in the width direction of each fourth slot hole (41, 44); a central case (50) into which the pair of central band units (40, 43) are respectively inserted, and which has a coupling hole (54) in an outer central portion; an adjustment knob (60) which is coupled to the coupling hole (54) of the central case (50) and has a rotating gear (63) engaged with the teeth (42, 45) of the pair of central band units (40, 43); a probe holder (70) on which a ultrasonic probe (80) is mounted; and a fixing means (90) which fixes the probe holder (70) to the first slot hole (12) of the rear band unit (10), the second slot hole (22) of the side band units (20, 21), and the third slot hole (34) of the front band unit (30).

Description

Headgear for Transcranial Doppler}

The present invention relates to a headgear for transcranial ultrasound examination, and more particularly, to a headgear for transcranial ultrasound examination in which an ultrasound probe for transcranial ultrasound examination can be easily and conveniently mounted in various positions in an adjustable manner.

Cerebrovascular disease is well known as a serious disease that has a high mortality rate along with cancer or heart disease and suffers from lifelong sequelae even without death. For this reason, interest in cerebrovascular disease from the general public is also increasing.

For these cerebrovascular diseases, prevention and initial treatment can be performed by checking the state of cerebrovascular diseases in advance through transcranial Doppler (TCD). As is well known, in the transcranial ultrasound (TCD), an ultrasound signal is injected into the human body through an ultrasound probe and an ultrasound signal reflected by red blood cells flowing through blood vessels is detected. Since it has a frequency different from the frequency, the blood flow velocity is measured by detecting the amount of change in this frequency, and accordingly, the health state of the cerebral blood vessels can be known.

However, the skull of the human body can be formed in various sizes and shapes depending on race, age, and gender, and the location of the affected area to which ultrasound must be transmitted, that is, the brain, can also vary. Since it is not easy to fix the position so that it is in close contact with the position, there is a problem in that the accuracy of the measured value decreases as the position is changed.

Korean Patent Publication No. 10-2003-0081346

The present invention is to solve the above problems, and an object of the present invention is to easily and simply fix the position of an ultrasound probe in more various positions regardless of the size or shape of the skull of the subject, and to finely position the position. An object of the present invention is to provide a headgear for transcranial ultrasonography that can be adjusted so that transcranial ultrasonography can be performed more easily and conveniently and more accurately measured.

According to the characteristics of the present invention, the rear band part 10 surrounds the back of the subject 1 from side to side and extends the first long hole 11 to the left and right in the middle portion; It is formed curved along the upper circumference of the ear 2 of the subject 1 at both ends of the rear band part 10, respectively, and in the middle part, the second long hole 22 extends horizontally or curvedly forward and backward. band parts 20 and 21; a front band part 30 covering the forehead of the subject 1 at the front end of each of the side band parts 20 and 21, and having a third long hole 34 extending left and right in the middle part; In the middle of the pair of side bands 20 and 21, each extends to overlap the top of the head of the subject 1, and the fourth long holes 41 and 44 extend in the longitudinal direction at the overlapping portions. a pair of central band portions 40 and 43 having sawtooth portions 42 and 45 formed along the longitudinal direction on inner walls of the fourth elongated holes 41 and 44 facing each other in the width direction; Insertion holes 52 and 53 into which the pair of central band parts 40 and 43 are respectively inserted are formed at both ends, and an accommodation space 51 in which the pair of central band parts 40 and 43 are accommodated in an overlapping manner. A central case 50 formed in communication with the insertion holes 52 and 53 and having a coupling hole 54 communicating with the accommodation space 51 at the outer central portion; The control knob 60 coupled to the coupling hole 54 of the central case 50 and having a rotation gear 63 meshed with the teeth 42 and 45 of the pair of central band portions 40 and 43 at the coupling end. ); A probe mounting ring 71 on which an ultrasonic probe 80 is mounted, a first long hole 12 extending upward from an upper end of the probe mounting ring 71 and a side band portion 12 of the rear band portion 10, and side band portions 20 and 21 It includes a fixing bar 72 movably coupled to the second long hole 22 and the third long hole 34 of the front band part 30, and a vertical long hole 73 is formed in the fixing bar 72. probe holder 70; And the first long hole 12 of the rear band part 10 and the second long hole 22 of the side band parts 20 and 21 passing through the vertical long hole 73 of the fixing bar 72 of the probe holder 70 And a fixing pin 91 fixed to the third elongated hole 34 of the front band portion 30, and a pin head whose diameter is expanded at the end of the fixing pin 91 and caught on the circumference of the vertical elongated hole 73 ( 92); there is provided a headgear for transcranial ultrasonography, characterized in that it includes a fixing means (90).

According to another feature of the present invention, the central portion of the central case 50 surrounds the coupling hole 54 and has a circular groove or circular ring 55 formed along the circumferential direction of the ratchet gear 56 on the inside, The control knob 60 includes a knob body 61, a rotary shaft 62 protruding from the center of the lower surface of the knob body 61 and having the rotary gear 63 at the front end, and the knob body 61. It includes a pair of guide protrusions 64 and ratchet actuating protrusions 65 disposed opposite to each other around the rotating shaft 62 on the bottom surface, provided inside the circular groove of the central case 50 or the circular ring 55. And an anti-reverse rotation device 100 for preventing reverse rotation of the control knob 60 is further provided, and the anti-reverse device 100 has a central shaft hole 102 into which the rotation shaft 62 of the control knob 60 is inserted. ) and a pair of guide holes 103 disposed opposite to each other around the shaft hole 102 and into which each guide protrusion 64 of the control knob 60 is inserted; a pair of elastic pieces 104 and 107 protruding in a circumferential direction around the shaft hole 102 at opposite ends of the anti-ball body 101; and inward locking protrusions 106 and 109 or locking grooves provided at the tip of each of the elastic pieces 104 and 107 and to which the ratchet actuating protrusion 65 of the control knob 60 is hooked. Headgear is provided.

According to another feature of the present invention, the circumference of the first long hole 12 of the rear band part 10, the circumference of the second long hole 22 of the side band parts 20 and 21, and the front band part 30 A concave groove 23 is formed in at least one of the circumferences of the fourth long hole 34, and a friction ring prevents the fixing bar 92 of the fixing means 90 from slipping in the concave groove 23. There is provided a headgear for transcranial ultrasound, characterized in that (110) is inserted.

As described above, according to the present invention, the rear band part 10 covering the head of the subject, a pair of side band parts 20 and 21, a front band part 30 and a pair of center band parts 40 and 43 are included. And, by providing a headgear for transcranial ultrasound examination in which the ultrasound probe 80 can be movably mounted on each band part using the probe holder 70, the area of the brain of the subject 1 to which ultrasound is to be transmitted is provided. Since the ultrasonic probe 80 can be simply and effectively fixed to various positions, measurement can be performed more easily and accuracy of the measurement value is improved. At this time, since the position of the ultrasonic probe 80 can be finely adjusted, it is possible to more accurately measure the affected part of the subject's brain, further improving the precision of the measured value.

In addition, the pair of central band parts 40 and 43 are inserted into the central case 50 and can be stretched and contracted using the control knob 60 to fit the head of the subject 1 with various sizes and shapes. Since gear can be worn, it is excellent in versatility. At this time, since the control knob 60 is prevented from being arbitrarily loosened by the anti-reverse device 100 provided in the central case 50, the headgear can be structurally firmly and stably worn on the head of the subject 1. .

In addition, since the probe holder 70 on which the ultrasonic probe 80 is mounted is prevented from slipping in the rear band part 10, the side band part 20.21, and the front band part 30 surrounding the head of the subject 1, the ultrasonic probe Since the movement of the probe holder 70 is prevented even by an external force applied to the ultrasound probe 80 due to the signal line 81 of (80), and the ultrasound probe 80 is prevented from moving away from the affected area of the subject, the measured value precision is further improved.

Meanwhile, since the rear side bands 14 and 15 are elastically coupled to both ends of the rear center band 11 of the rear band unit 10, the rear band unit 10 fits to the size and shape of the head of the subject 1. ) can be stretched and adjusted, so it can be used for subjects with various head sizes and shapes, so it has excellent versatility. Furthermore, since the pair of center band parts 40 and 43 covering the crown of the subject to be overlapped with each other can be stretched and contracted only by rotating the control knob 60, the headgear can be applied to subjects having various head sizes and shapes ( 1) It can be worn more conveniently and quickly on people's heads.

1 is a perspective view showing an embodiment of a headgear for transcranial ultrasound examination according to the present invention;
2 is a wearing state diagram of the embodiment
3 is a view showing in detail the configuration of the central band part of the embodiment
Figure 4 is a view showing the expansion and contraction control and reverse rotation prevention of the central band portion of the embodiment
Figure 5 is an exploded perspective view showing the mounting structure of the probe holder of the embodiment
6 is a view showing the position adjustment of the probe holder of the embodiment
Figure 7 is a view showing the slip prevention of the probe holder of the embodiment
8 is a view showing the elastic structure of the rear band part of the embodiment

Objects, features and advantages of the present invention described above will become more apparent through the detailed description that follows. Hereinafter, a preferred embodiment of the present invention will be described based on the accompanying drawings.

1 to 8 are views showing headgear for transcranial ultrasound examination according to an embodiment of the present invention. As shown, the headgear for transcranial ultrasound examination according to an embodiment of the present invention includes a rear band part 10, a pair of lateral band parts 20 and 21, a front band part 30, and a pair of central band parts ( 40 and 43), a central case 50, a control knob 60, a probe holder 70, and a fixing means 90.

The rear band part 10 surrounds the back of the subject 1 to the left and right, and the first long hole 12 extends left and right in the middle part.

The pair of side band parts 20 and 21 are formed curved along the upper circumference of the ear 2 of the subject 1 at both ends of the rear band part 10, respectively, and the second long hole 22 is formed in the middle part. It extends horizontally or curvedly back and forth.

The front band part 30 connects the tips of the side band parts 20 and 21 to surround the forehead of the subject 1 from side to side, and the third long hole 34 extends from side to side in the middle part.

The pair of central band parts 40 and 43 extend from the pair of side band parts 20 and 21 to partially overlap the crown of the subject 1 , respectively. Fourth elongated holes 41 and 44 extend in the longitudinal direction at overlapping portions of the central band portions 40 and 43 . When the pair of central band portions 40 and 43 are overlapped, the fourth elongated holes 41 and 44 of each central band portion 40 and 43 are aligned, and each of the fourth elongated holes 41 and 44 is aligned with each other in the width direction. On the opposite inner walls, teeth 42 and 45 are formed along the longitudinal direction.

The central case 50 accommodates the pair of central band parts 40 and 43 so as to overlap therein, and adjusts the length of the overlapping part of the pair of central band parts 40 and 43 through the control knob 60. do. Insertion holes 52 and 53 into which the pair of central band parts 40 and 43 are respectively inserted are formed at both ends of the central case 50, and the pair of central band parts 40 and 43 are accommodated in an overlapping manner therein. The accommodating space 51 is formed in communication with the insertion holes 52 and 53, and a coupling hole 54 communicating with the accommodating space 51 is formed in the outer central portion. The insertion holes 52 and 53 may be partitioned vertically so that the pair of center band parts 40 and 43 overlap each other.

The control knob 60 includes a knob body 61, a rotation shaft 62 protruding from the center of the knob body 61 and coupled to the coupling hole 54 of the central case 50, and the rotation shaft 62 It is provided at the end of and includes a rotation gear 63 meshed with the teeth 42 and 45 of the pair of central band portions 40 and 43.

As shown in (a) of FIG. 4, when the control knob 60 is rotated, the pair of center band portions 40 and 43 are moved in different directions as the rotation gear 63 rotates, and the center band portion ( 40 and 43), the lengths of the overlapping parts are adjusted, so that the headgear can be more closely attached to the heads of the subjects 1 having different sizes.

The headgear for transcranial ultrasound examination according to an embodiment of the present invention may further include a reverse rotation prevention device 100 preventing reverse rotation of the control knob 60 . At this time, as shown in FIG. 3, the ratchet gear 56 is formed extending in the circumferential direction so as to surround the coupling hole 54 in the central case 50, and the ratchet gear 56 is formed on the outer surface of the central case 50. It may be formed on the inner circumferential surface of the concave circular groove or the circular ring 55 protruding outward.

In addition, the anti-reverse rotation device 100 is provided inside the circular groove of the central case 50 or the circular ring 55. As shown in FIG. 3, the anti-reverse rotation device 100 includes an anti-rotation device body 101 protruding oppositely around the shaft hole 102 into which the rotation shaft 62 of the control knob 60 is inserted in the center, and the device body 101 ( 101) includes a pair of elastic pieces 104 and 107 protruding in an arc shape along the circumferential direction around the shaft hole 102 at both ends. At this time, the guide hole 103 extends in the circumferential direction on both sides facing the shaft hole 102 in the anti-ball body 101. Ratchets 105 and 108 engaged with the ratchet gear 56 protrude outside each of the elastic pieces 104 and 107 . Meanwhile, inward locking protrusions 106 and 109 or locking grooves are formed on the inner side of each elastic piece 104 and 107 .

And, on the other hand, the knob body 61 of the control knob 60 has a pair of guide protrusions 64 inserted into each guide hole 103 of the anti-reverse rotation device 100, and inward locking protrusions 106 and 109 or locking grooves. It is provided with a ratchet operating protrusion 65 caught on.

In this way, in a state in which the ratchet 106 and 109 of the anti-reverse device 100 is engaged with the ratchet gear 56 of the central case 50, the guide protrusion 64 of the control knob 60 moves the anti-reverse device 100. Since it is inserted into the guide hole 103 and hung, reverse rotation of the control knob 60 in the absence of external force is prevented.

As shown in (b) of FIG. 4 , when the user grips and turns the control knob 60, the ratchet operating protrusion 65 of the control knob 60 engages or engages the inward locking protrusions 106 and 109 of the anti-reverse rotation device 100. As the ends of the elastic pieces 104 and 107 are moved inward while being caught in the groove, the latches 106 and 109 are released from the ratchet gear 56. Accordingly, the control knob 60 may be reversely rotated.

On the other hand, although the rotation gear 63 meshed with the teeth 42 and 45 of the central band portions 40 and 43 may be provided directly on the control knob 60, the prevention device of the reverse rotation prevention device 100 as shown in FIG. What is provided in the body 101 is exemplified. When the control knob 60 is rotated for a certain period, the guide protrusion 64 is caught on the guide ball 103 of the anti-ball body 101 and rotates together, so that the rotation gear 63 rotates together with the control knob 60. , It can be seen that the rotation gear 63 is directly provided to the control knob 60 and the operation is the same.

As shown in FIG. 5, the probe holder 70 extends upward from the probe mounting ring 71 to which the ultrasonic probe 80 is mounted and the upper end of the probe mounting ring 71, and the first long hole of the rear band unit 10. (12), and a fixing bar 72 movably coupled to the second long hole 22 of the side band parts 20 and 21 and the third long hole 34 of the front band part 30. At this time, a vertical long hole 73 is formed in the fixing bar 72. On the other hand, it is preferable that a non-slip protrusion 75 is formed on one surface of the fixing bar 72 in contact with the rear band portion 10, the side band portions 20 and 21, and the front band portion 30.

The fixing means 90 passes through the vertical long hole 73 of the vertical bar 72 of the probe holder 70, and passes through the first long hole 12 of the rear band part 10 and the first long hole 12 of the side band parts 20 and 21. A fixing pin 91 fixed to the second long hole 22 and the third long hole 34 of the front band part 30, and the diameter is expanded from the end of the fixing pin 91 to the circumference of the vertical long hole 73 It includes a pinhead 92 that is caught.

In the headgear for transcranial ultrasound examination according to an embodiment of the present invention, an opening 73 cut to communicate with the vertical long hole 72 may be further formed on one side of the fixing bar 72 of the probe holder 70. there is. 5, since the opening 73 is located on the upper side of the fixing bar 72 and the upper end of the fixing bar 72 forms a ring shape, the fixing means 90 is the rear band part 10, the side band part ( 20 and 21) and the front band portion 30 can be easily inserted from the side of the fixing pin 91 of the fixing means 90 in a state of being coupled.

In the headgear for transcranial ultrasound examination according to an embodiment of the present invention, the front band portion 30 may be provided to be stretchable. The front band unit 30 may include a pair of unit front bands 31 and 32, a front coupling case 33, and a front control knob 35, and may have the same shape as the extension and contraction of the central band unit 30. It can be configured to stretch to. Accordingly, as the front control knob 35 is rotated, the length of the overlapping portion of the pair of unit front bands 31 and 32 expands and contracts, and the front band part 30 itself expands and contracts, so that the head image of the subject 1 is measured. It can be easily adjusted to fit the size, etc.

The headgear for transcranial ultrasound examination according to an embodiment of the present invention may further include an auxiliary anti-reverse rotation prevention device (not shown) preventing reverse rotation of the front control knob 35 . At this time, since the auxiliary anti-reverse device has the same structure and operation as the anti-reverse device 100, a detailed description thereof will be omitted. On the other hand, it was illustrated that two third long holes 34 are formed on the front surface of the front coupling case 33 as shown in FIG.

The headgear for transcranial ultrasound examination according to an embodiment of the present invention includes a circumference of the first long hole 12 of the rear band part 10, a circumference of the second long hole 22 of the lateral band parts 20 and 21, A concave groove 23 may be formed in at least one of the circumferences of the fourth long hole 34 of the front band part 30, and the fixing bar 72 of the probe holder 70 may be formed in the concave groove 23. A friction ring 110 preventing slipping may be provided.

In addition, a non-slip protrusion 75 may be further formed on one surface of the fixing bar 72 of the probe holder 70 in contact with the rear band 10, the side bands 20 and 21, and the front band 30. .

Accordingly, since the probe holder 70 is effectively prevented from slipping on the rear band part 10, the side band parts 20 and 21, and the front band part 30, the ultrasonic probe 80 mounted on the probe holder 70 is It can be accurately positioned on the affected part of the subject, so the measurement precision is improved.

In the headgear for transcranial ultrasound examination according to an embodiment of the present invention, the auxiliary friction ring ( 94) may be further formed with an auxiliary concave groove 93 into which it is inserted. The auxiliary concave groove 93 may be formed in a form surrounding the fixing pin 91 of the fixing means 90. Accordingly, since the probe holder 70 is more effectively prevented from slipping on the rear band 10, the side bands 20 and 21, and the front band 30, the measurement accuracy by the ultrasonic probe 80 is further improved. do.

In the headgear for transcranial ultrasound examination according to an embodiment of the present invention, the rear band portion 10 may be provided to be stretchable. As shown in FIG. 8 , the rear band unit 10 may include a rear center band 11, a pair of rear side bands 14 and 15, and position adjusting pins 16 and 17.

In addition, a third long hole 12 is formed in the center of the rear center band 11, and a plurality of positioning holes 13 are formed at both sides of the third long hole 12 at a distance along the longitudinal direction.

In addition, each of the pair of rear side bands 14 and 15 has one end connected to each side band part 20 and 21 and the other end selectively coupled to the plurality of position adjusting holes 13 of the rear center band 11. do. At this time, coupling holes (not shown) are formed at the other ends of the rear side bands 14 and 15 .

In addition, the positioning pins 16 and 17 are coupled to the coupling holes of the rear side bands 14 and 15, and are selectively coupled to each positioning hole 13 of the rear center band 11. Accordingly, while the second half band part 10 is stretched and contracted, it can be brought into close contact with the head of the subject 1 .

The headgear for transcranial ultrasound examination according to an embodiment of the present invention configured as described above is mounted on the head of the subject 1 as shown in FIG. 2 . At this time, the control knob 60 and the front control knob 35 are rotated to stretch and contract the pair of central band parts 40 and 43 and the front band part 30 so as to come into close contact with the head of the subject 1.

In addition, the probe holder 70 is placed on the rear band part 10, the side band parts 20 and 21, and the front band part 30 so that the ultrasonic probe 80 mounted on each probe holder 70 is located on the affected area of the subject 1. ) to adjust the position. That is, as shown in FIG. 6, the fixing means 90 to which the probe holder 70 is fixed is moved forward, backward, left and right through the first to third long holes 12, 22, and 34, and the fixing bar of the probe holder 70 ( The probe holder 70 is moved up and down along the vertical long hole 73 of 72). Accordingly, since the ultrasound probe 80 can move minutely in front, back, left, and right directions, the ultrasound probe 80 can be fixed to various positions on the skull of the subject 1, so that various positions on the skull can be measured. The ultrasound probe 80 may be mounted on all of the rear band 10, the lateral bands 20 and 21, and the front band 30, and thus various positions of the skull can be examined at once.

The present invention described above is not limited by the foregoing embodiments and the accompanying drawings, and various substitutions, modifications, and changes are possible within a range that does not deviate from the technical spirit of the present invention. will be clear to those who have knowledge of

10: rear band part 12: first long hole
20,21: side band part 22: second long hole
30: Front band 34: 3rd hole
40,43: Central band part 41,44: Chapter 4 hole
42,45: teeth 50: center case
56: ratchet gear 60: control knob
63: rotation gear 65: ratchet operating protrusion
70: probe holder 80: ultrasonic probe
90: fixing means 100: reverse rotation prevention device
110: friction ring

Claims (3)

a rear band part 10 which surrounds the back of the subject 1 from side to side and extends the first long hole 11 to the left and right in the middle portion;
It is formed curved along the upper circumference of the ear 2 of the subject 1 at both ends of the rear band part 10, respectively, and in the middle part, the second long hole 22 extends horizontally or curvedly forward and backward. band parts 20 and 21;
a front band part 30 covering the forehead of the subject 1 at the front end of each of the side band parts 20 and 21, and having a third long hole 34 extending left and right in the middle part;
In the middle of the pair of side bands 20 and 21, each extends to overlap the top of the head of the subject 1, and the fourth long holes 41 and 44 extend in the longitudinal direction at the overlapping portions. a pair of central band portions 40 and 43 having sawtooth portions 42 and 45 formed along the longitudinal direction on inner walls of the fourth elongated holes 41 and 44 facing each other in the width direction;
Insertion holes 52 and 53 into which the pair of central band parts 40 and 43 are respectively inserted are formed at both ends, and an accommodation space 51 in which the pair of central band parts 40 and 43 are accommodated in an overlapping manner. A central case 50 formed in communication with the insertion holes 52 and 53 and having a coupling hole 54 communicating with the accommodation space 51 at the outer central portion;
The control knob 60 coupled to the coupling hole 54 of the central case 50 and having a rotation gear 63 meshed with the teeth 42 and 45 of the pair of central band portions 40 and 43 at the coupling end. );
A probe mounting ring 71 on which an ultrasonic probe 80 is mounted, a first long hole 12 extending upward from an upper end of the probe mounting ring 71 and a side band portion 12 of the rear band portion 10, and side band portions 20 and 21 It includes a fixing bar 72 movably coupled to the second long hole 22 and the third long hole 34 of the front band part 30, and a vertical long hole 73 is formed in the fixing bar 72. probe holder 70; and
The first long hole 12 of the rear band part 10 passes through the vertical long hole 73 of the fixing bar 72 of the probe holder 70, the second long hole 22 of the side band parts 20 and 21, and A fixing pin 91 fixed to the third long hole 34 of the front band part 30, and a pin head 92 whose diameter is expanded at the end of the fixing pin 91 and caught on the circumference of the vertical long hole 73 Headgear for transcranial ultrasound examination, characterized in that it comprises a; fixing means (90) comprising a). The method of claim 1, wherein a central portion of the central case 50 surrounds the coupling hole 54 and has a circular groove or circular ring 55 formed along the circumferential direction of the ratchet gear 56 on the inside,
The control knob 60 includes a knob body 61, a rotary shaft 62 protruding from the center of the lower surface of the knob body 61 and having the rotary gear 63 at the front end, and the knob body 61. It includes a pair of guide protrusions 64 and ratchet actuating protrusions 65 disposed opposite to each other about the rotation shaft 62 on the bottom surface,
A reverse rotation prevention device 100 provided inside the circular groove or circular ring 55 of the central case 50 and preventing reverse rotation of the control knob 60 is further provided,
The reverse rotation prevention device 100,
Shaft hole 102 into which the rotational shaft 62 of the control knob 60 is inserted in the center, and a pair of guide protrusions 64 of the control knob 60 that are disposed oppositely around the shaft hole 102 and into which each guide protrusion 64 of the control knob 60 is inserted. an anti-ball body 101 having a guide hole 103 formed thereon;
a pair of elastic pieces 104 and 107 protruding in a circumferential direction around the shaft hole 102 at opposite ends of the anti-ball body 101; and
Head for transcranial ultrasound examination, characterized in that it comprises: an inward locking protrusion (106, 109) or a locking groove provided at the front end of each of the elastic pieces (104, 107) and to which the ratchet actuating protrusion (65) of the control knob (60) is hooked. gear. The circumference of the first long hole 12 of the rear band part 10, the circumference of the second long hole 22 of the side band parts 20 and 21, and the front band part 30 according to claim 1 or 2 A concave groove 23 is formed on at least one of the circumferences of the fourth long hole 34, and the friction to prevent the fixing bar 92 of the fixing means 90 from slipping in the concave groove 23 Headgear for transcranial ultrasound, characterized in that the ring 110 is inserted.

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