KR100663037B1 - Jig for fixing body - Google Patents

Abstract

The present invention relates to a body fixing jig device for measuring the blood flow of the multi-measurement point, and more specifically, to measure the blood flow in the body after selecting the measuring point in various places the head, neck, chest and arm of the body By fixing with a jig device, not only increases the accuracy of the cerebrovascular measurement test results, but also relates to a jig device for fixing the body that can shorten the time taken to measure the blood flow of the brain.

According to the present invention, the upper and lower height adjustable desk portion 10 is equipped with a chest fixing part 20 for fixing the chest to the upper back, and the main bar 30 on both sides of the upper part of the chest fixing part 20. The support part 40 is fixed to each other, and each main bar 30 has a head fixing part 50 for fixing the upper and lower ends of the head and a plurality of measuring sensors 60. 1 sensor fixing portion 70 is formed, respectively, the head fixing portion 50 is formed of an upper fixing portion 50a for fixing the upper head and a lower fixing portion 50b for fixing the jaw, the first sensor Fixing part 70 is provided with a jig device for fixing the body for the measurement of cerebral blood flow of the multi-measurement point, characterized in that formed by the fixing bar 71 and the auxiliary bar 72.

Cerebral blood flow test, multi-measurement point, body fixation jig.

Description

Jig for fixing body for measuring the blood flow of cerebral blood at multiple measuring points

1A and 1B are perspective views showing the whole of the present invention.

Figure 2 is a state diagram showing the up and down state of the desk unit in the present invention

Figure 3 is a state diagram showing a rotation state of the chest fixing part in the present invention

Figure 4 is a state diagram showing the bar support and the lower fixing portion in the present invention

Figure 5 is a state diagram showing the upper fixing portion in the present invention

Figure 6a to 6c is a state diagram showing another state of the fixing piece in the present invention

Figure 7 is a state diagram showing a wrist fixing part in the present invention

8 is a state diagram showing the entire moving state of the present invention;

<Description of Symbols for Major Parts of Drawings>

10: desk part 20: chest fixation 30: main bar

40 bar support 41 first support 42 second support

43: connecting bar 50: bolt fastener 40: weight measuring unit

41: rod and bearing 50: head fixing 50a: upper fixing part

50a-1: case unit 50a-2: support piece 50a-3: support ring

50a-4: fixing member 50a-5: forehead fixing pad 50b: lower fixing portion

50b-1: Case unit 50b-2: Support piece 50b-3: Support panel

50b-4: movable port 50b-5: second movable rail 50b-6: jaw recessed part

60: sensor 61: fastener
70: first sensor fixing part 71: moving block

72: fixing bar 74: first auxiliary fixing bar 75: second auxiliary fixing bar

76: fixed piece 77: fastener
80: wrist fixing part 80a: wrist insertion unit

80a-1: Velcro fastener 80a-2: Fixed pad 80b-1: Support block

80b-2: Moving bar 80b-3: Moving block 80b-4: Fixed bar

80b-5: Fixing piece 101,102,103,104,105,106,107: Adjusting bolt

201,202,203,204,205,206,207: Lever bolt

The present invention relates to a body fixing jig device for measuring the blood flow of the multi-measurement point, and more specifically, to measure the blood flow in the body after selecting the measuring point in various places the head, neck, chest and arm of the body By fixing with a jig device, not only increases the accuracy of the cerebrovascular measurement test results, but also relates to a jig device for fixing the body that can shorten the time taken to measure the blood flow of the brain.

Transcranial Doppler Ultrasonography (TCD), which is usually performed to measure cerebral blood flow, is a test that measures the velocity of blood flow in the cerebral blood vessels using the Doppler effect. It is a non-invasive vascular treatment system that measures speed.

A cerebral blood flow test (TCD) involves applying sensors to the back of the neck, temples, eyebrows and slightly above the eyebrows, and wrists, and then emitting ultrasound. When the blood vessels become narrower, the blood flow through the area becomes relatively faster. In view of this, an overview of risk is to use low frequency (2.4.8 MHz) ultrasound waves with low attenuation in bone and soft tissue.

However, when the cerebral blood flow test is performed as described above, since the measurer directly grabs the sensor and contacts the body of the subject, the cerebral blood flow can be measured at one measurement point with only one sensor. Therefore, when a precise cerebral blood flow test is to be accompanied, a lot of time and manpower are consumed because each measurement point needs to be measured separately. Will increase.

And no means of fixing the body of the person holding the sensor or the body of the person lying on the bed is not formed. Since it affects a lot, it is difficult to obtain accurate cerebral blood flow measurement results.

Recently, a head cap-shaped cerebral blood flow measuring device has been developed for measuring the brain blood flow of the head, but it has only two measuring points on the head, but it is impossible to measure blood flow at the back of the neck or wrist. In case of measuring point, it is impractical.

An object of the present invention is to solve such a conventional problem, after fixing the upper head, neck, chest and arms of the body, when measuring the blood flow of the brain can be equipped with sensors at several measuring points, Multiple sensors can be used to measure various blood flows in a short time, and there is no need for a separate measurer to prevent the consumption of manpower, and to prevent the movement of the subject to increase the precision of blood flow measurement.

As a means for achieving the above object, and equipped with a chest fixing portion for fixing the chest to the back of the desk portion capable of adjusting the vertical height, and after mounting the main bar to both sides of the upper side of the chest fixing portion, the head fixing portion on the main bar And the sensor fixing part, wherein the head fixing part is formed of the upper fixing part which fixes the top of the head and the lower fixing part which fixes the chin, and the sensor fixing part measures the cerebral blood flow of the multi-measurement point formed by the auxiliary bar and the variable position bar. To provide a jig device for body fixing for.

The upper and lower height adjustable desk part 10 is equipped with a chest fixing part 20 for fixing the chest to the top of the rear side, the upper side of the chest fixing part 20 support bar for supporting and fixing the main bar 30 40 is mounted, respectively, on each of the main bar 30, the head fixing part 50 for fixing the upper and lower ends of the head and the first sensor fixing part for fixing the plurality of measurement sensors 60 ( 70 is formed, respectively, the head fixing portion 50 is formed of an upper fixing portion (50a) for fixing the upper head and a lower fixing portion (50b) for fixing the jaw, the first sensor fixing portion (70) Is characterized in that the fixed bar 71 and the auxiliary bar 72 is formed.

In the above, the desk portion 10 is formed with a leg 12, the movement wheel 11 is mounted to the lower side, the upper panel 13 and the lower panel 14 is formed on the upper end of the leg 12, the upper Between the panel 13 and the lower panel 14, a tetrahedral elevating bar 17 capable of lifting up and down by rotating the screw 16 on which the handle 15 is mounted is mounted.

In the above, the upper surface of the upper panel 13, both sides of the wrist inserting portion 80a and the second sensor fixing portion 80b consisting of a wrist fixing portion 80 is formed, the wrist inserting portion (80a) is a Velcro A fixing pad 80a-2 on which the fastener 80a-1 is mounted is formed, and a moving bar 80b-2 between the support blocks 80b-1 spaced a predetermined distance from the second sensor fixing part 80b. A moving block 80b-3 having an adjustment bolt 101 on the upper side and a lever bolt 207 on one side is mounted, and a fixing bar 80b- mounted on the moving block 80b-3. 4) The fixing piece 80b-5 is formed at one side.

In the above, the chest fixing part 20, the lower side is hinged to the desk portion 10, the upper side is formed with a rotation bar 21 is mounted with a lever-type bolt 201 in the upper end, the rotation bar (21) The lever-type bolt 201 of the end portion is fastened to the moving tool 23 on the first moving rail 22 formed on both sides of the center of the desk portion 10.

In the above, the bar support 40 is formed of a first support 41 coupled to the chest fixing portion 20 and a second support 42 connected to the first support 41 to fix the main bar 30. The lower part of the first support part 41 is mounted to the chest fixing part 20, and the upper part is mounted to one side of the connection bar 43, and the second support part 42 is coupled to the other side of the connection bar 43. .

In the above, the second support 42 is connected to the separation preventing piece 32 formed at the end of the main bar 30, the second support 42 on the connecting bar 43 below the second support 42 The lever bolt 202 is formed to enable forward and backward movement of the lever, and the lever bolt 203 is formed on the upper side to enable forward and backward rotation and vertical movement of the main bar 30.

In the above, the lower fixing part 50b has a case unit 50b-1 inserted into a lower portion of each main bar 30, and a support piece 50b-2 is provided inside the lower portion of each case unit 50b-1. It is mounted to face each other, the support panel 50b-3 is formed between each support piece (50b-2) is formed, the center of the support panel (50b-3) bolt mover (50b-4) The formed second moving rail 50b-5 is fastened through the lever bolt 204, and the jaw recess 50b-6 is mounted to one side of the second moving rail 50b-5.

In the above, the upper fixing part (50a) is inserted into the case unit (50a-1) on the top of each main bar 30, to adjust the lifting of the case unit (50a-1) to one side of each case unit (50a-1) Lever bolt 205 is fastened, the support piece (50a-2) is mounted facing each other in the lower inner side, the support ring (50a-3) is formed between each of the support piece (50a-2) is formed On the support ring 50a-3, a plurality of fixing members 50a-4 for fixing the head through the adjusting bolt 102 are mounted, and the forehead fixing panel 50a-5 is provided on the front surface where the forehead is folded. Is equipped.

In the above, the first sensor fixing part 70 is a lever bar 206 is fastened to one side and the moving bar 71 inserted into the main bar 30 center and the fixed bar inserted into the moving block 71. Is formed of a (72), the fixing bar (71) on both sides is equipped with a first auxiliary fixing bar (74) through the adjusting bolt 103, the end of the first auxiliary fixing bar (74) adjustment bolt ( The second auxiliary fixing bar 75 is mounted through the 104, and the fixing piece 76 is formed at the end of the second auxiliary fixing bar 75.

In the above, the fixing piece (80b-5) 76 is formed with a sensor insertion hole 301 at the center, the adjustment bolt 105 is formed through the sensor insertion hole 301 on one side of the outer circumference.

The sensor insertion hole 301 into which the sensor 60 is inserted and fastened may be formed in a plurality of fixing pieces 76 in different sizes so as to accommodate the sensors 60 having various sizes. Two different sensor insertion holes 60 are formed.

In the case of the circular sensor 60, the fastening auxiliary piece 77 for fastening the fixing piece 76 into which the circular sensor 60 is fastened to the end of the second auxiliary fixing bar 75 is cross-section "b". "It is bent in a shape and is structured to be fastened to the fixed piece 76 as an adjustment bolt 105 on one side of the bending of the fastening auxiliary piece 77.

Hereinafter, 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 technical idea of the present invention.

Figure 1a, 1b is a perspective view showing the whole of the present invention, Figure 2 is a state diagram showing the up and down state of the desk unit in the present invention, Figure 3 is a state diagram showing a rotation state of the chest fixing part in the present invention, Figure 4 is a state diagram showing the bar support and the lower fixing portion in the present invention, Figure 5 is a state diagram showing the upper fixing portion in the present invention, Figure 6a to 6c is a state diagram showing another state of the fixing piece in the present invention, Figure 7 is a state diagram showing a wrist fixing part in the present invention, Figure 8 is a state diagram showing the entire moving state of the present invention,

The present invention is a combination of the desk portion 10, the chest fixing portion 20, the head fixing portion 50, the first sensor fixing portion 70, the wrist fixing portion 80, the structure for each part If you look more closely at

First, as shown in FIG. 2, the desk unit 10 forms a moving wheel 11 under the leg 12 for convenient movement of the position, and the upper panel 13 and the lower part to the upper end of the leg 12. The panel 14 is formed to be spaced apart by a predetermined interval, and in this space, an elevating bar 17 capable of adjusting the upper and lower panels of the upper panel 13 is formed, and the elevating bar 17 has a plurality of bars in a tetrahedral shape. Each corner portion is assembled by screwing and can be folded to a predetermined width.

After mounting another tetrahedral elevating bar 17 to one side of the tetrahedral elevating bar 17, the screw 16 penetrating each elevating bar 17 to one side is fastened, and the screw 16 ) The handle 15 is formed at one end.

Accordingly, when the tetrahedral spacing of the elevating bar 17 approaches the lozenge during the rotation of the handle 15, the height of the desk portion 10 decreases, and the height of the desk portion 10 increases when the handle 15 approaches the square.

The chest fixing portion 20 is mounted on the upper back of the desk portion 10, as shown in Figure 3, wherein the lower portion of the chest fixing portion 20 is hinged to the desk portion 10, the upper portion is a rotating bar (21) is mounted so that the end of the pivoting bar 21, the lever bolt 201 is fastened to the desk unit 10 inclined, when the first movable rail 22 having the movable port 23 is Since it is formed on the desk part 10, the lever-type bolt 201 is fastened to the moving tool 23, and the rotation bar 21 moves back and forth along the moving tool 23 according to the operation of the lever. Allow position to be variable. That is, the inclination angle of the chest fixing part 20 may be varied by operating the lever-type bolt 201 according to the body structure or the measurement point of the subject.

In addition, the bar support part 40 mounted on both sides of the upper side of the chest fixing part 20 is first mounted on both sides of the upper side of the chest fixing part 20 as shown in FIG. 1 Mount one side of the connecting bar 43 on the upper portion of the support 41. The second support 42 is mounted on the other side of the connecting bar 43. At this time, the lever-type bolts 202 and 203 are fastened to the upper and lower sides of the second support 42, and the second support 42 is provided. The upper side of the separation prevention bar 31 to the upper end of the main bar 30 is formed, the separation prevention piece 32 is formed in the end, and then through the operation of the second support 42 and the second support 42 Main bar 30 coupled to the) to be movable in the front and rear and up and down directions. That is, if the lever-type bolt 202 below the second support 42 is operated according to the body structure or the sitting height of the subject, the second support 42 can be moved forward and backward, and the upper lever-type bolt By operating 203, the main bar 30 can be rotated and moved in the vertical direction, and can be adjusted to suit the body structure of the subject.

The head fixing part 50 is formed of a lower fixing part 50b and an upper fixing part 50a. First, the lower fixing part 50b is a case unit at the bottom of each main bar 30 as shown in FIG. 50b-1 are inserted, respectively, and the support piece 50b-2 is mounted in the direction where each case unit 50b-1 faces a lower inner side, ie, the case unit 50b-1 faces each other. A semicircular rounded support panel 50b-3 is mounted between each support piece 50b-2, and a first moving rail 22 is mounted at the center of the support panel 50b-3. One side of the movable rail 22 is equipped with a jaw indentation portion 50b-6 through which the jaw of the subject can be indented, and a bolt moving hole 50b-4 is formed at the center thereof to form the bolt moving hole 50b-4. Lever bolt 204 penetrating through the center of the support panel (50b-3) through. That is, the first moving rail 22 can be moved back and forth along the bolt moving hole 50b-4 through the operation of the lever-type bolt 204, so that the jaw insertion portion 50b- is adapted to the position where the jaw of the subject is inserted. 6) the movement can be adjusted.

As shown in FIG. 5, the upper fixing part 50a inserts the case units 50a-1 into the upper portions of the main bars 30, and each case unit 50a-1, as with the lower fixing parts 50b. Mount the support piece (50a-2) in the lower inner side, and between each support piece (50a-2) is mounted a support ring (50a-3), at this time on the support ring (50a-3) adjustment boat to one side A plurality of fixing members 50a-4 equipped with 102 are mounted to operate the adjustment boat 102 to fit the head size of the object to be measured to fix the head. And the forehead fixing panel (50a-5) is mounted on the inner side of the support ring (50a-3) that the forehead of the subject to be folded to secure the forehead portion of the to-be-measured. Then, the lever unit 205 is fastened to one side of each case unit 50a-1 of the upper fixing part 50a so that the case unit 50a-1 is elevated on the main bar 30 in accordance with the body size of the subject. Make it.

The first sensor fixing part 70 is formed on the central portion of the main bar 30 between the upper fixing part 50a and the lower fixing part 50b, as shown in FIGS. 6A to 6B. 72 is inserted and inserted into the moving block 71 through which the lever bolt 206 is fastened to the other side of the main bar 30, and then through the adjusting bolt 103 to both sides of the fixing bar 72. The first auxiliary fixing bar 74 which can be changed in position is mounted. In addition, the second auxiliary fixing bar (75) is mounted on the end side of the first auxiliary fixing bar 74 is adjustable through the adjustment bolt 104, wherein the second auxiliary fixing bar (75) at the end of the sensor insertion hole (301) ) To form a fixing piece 76 is formed to fix the sensor 60 inserted into the sensor insertion hole 301 with a control bolt 105 penetrated from one side of the fixing piece 76.

In the above, the fixing piece 76 may vary in shape depending on the type of the sensor 60, that is, the stick type sensor 60 or the circular sensor 60. First, in the case of the stick type sensor 60, FIG. Alternatively, as shown in 6b, after forming one or more sensor insertion holes 301 in the fixing piece 76, a bolt fastening hole 76a is formed on one side of the fixing piece 76 and above each sensor insertion hole 301. Then, the adjustment bolt 106 is fastened to the bolt fastening hole 76a.
At this time, a plurality of sensor insertion holes 301 are formed in various sizes on the inside of the fixing piece 76, so that it is easy to install the sensors 60 of various sizes. Is formed.
Referring to this in more detail based on FIG. 6A, a part to which the sensor 60 is fastened is a first sensor insertion hole, and a part where the adjustment bolt 106 is not fastened can be fastened to a larger sensor 60. As the second sensor insertion hole formed in a size, the two sensor insertion holes 301 are not limited to the description of the drawings, but the two or more sensor insertion holes 301 into which the sensors 60 of various sizes are inserted, that is, each size A plurality of different sensor insertion holes 301 can be formed.

In the case of the circular sensor 60, as shown in FIG. 6C, the fastening aid 77 is formed into a cross-section " b " shape, and the circular sensor 60 is provided as an adjustment bolt 105 inside the " b " As a structure for fastening the fixing piece 76 formed with a fastening hole 61 on one side thereof, which contacts the fixing piece 76 to the fastening auxiliary piece 77 and then adjusts the bolt through the fastening hole 61. By fastening to the fastening auxiliary piece 77 as) it is possible to fasten the fixing piece 76 to the end of the second auxiliary fixing bar (75).

Therefore, in order to position the sensor 60 on the measurement pointer, after adjusting the up and down position through the moving block 71, the front and rear position is adjusted through the fixing bar 72, and then the first and second auxiliary fixing bar. It is possible to fix the position of the sensor 60 by adjusting the front and rear up and down positions through (74) (75).

As shown in FIG. 7, the wrist fixing part 80 includes a wrist inserting part 80a and a second sensor fixing part 80b and is formed at both sides of the desk part 10. First, the wrist inserting part 80a is formed. Is formed by attaching a fixing pad 80a-2 having a Velcro fastener 80a-1 attached to the bent portion in a cross-section “b” shape.

In addition, the second sensor fixing part 80b is formed at one side of the wrist insertion part 80a. The moving bar 80b-2 is mounted between the two support blocks 80b-1, and the moving bar 80b-2. On one side, the lever-type bolt 207 is mounted on one side, and the moving block 80b-3 to which the adjustment bolt 101 is fastened is mounted. In addition, the fixed block 80b-4 is mounted on the movable block 80b-3, and one side of the fixed bar 80b-4 is formed of an adjustment bolt 107 and the other side of the fixed piece 80b-5. Mount it. At this time, the fixing piece (80b-5) can be applied to both the stick-type sensor 60 and the circular sensor 60, as mentioned in the first sensor fixing portion (70).

Therefore, when the sensor 60 is to be fixed, the front and rear positions of the moving block 80b-4 are set through the lever bolt 207 formed on the moving block 80b-4, and then the moving block 80b-4. The sensor 60 controls the front and rear positions of the movable bar 80b-2 and the left and right positions of the fixed bar 80b-4 through the adjustment bolts 101 and 107 formed at one side of the upper side and the movable bar 80b-2. The measuring point of can be set accurately.

When the brain blood flow is to be measured through the body fixing jig device formed as described above, the desk unit 10, the chest fixing unit 20, the bar support unit 40, and the upper side according to the body size of the subject sitting in the chair first The position of the fixing part 50a is set. First, the desk part 10 adjusts the elevating bar 17 to the sitting height of the subject through the rotation of the handle 15, and fits the sitting position of the subject. The chest fixing portion 20 is also adjusted, by adjusting the lever-type bolt 201 formed at the end of the rotation bar 21 to adjust the rotation angle of the rotation bar 21.

And by adjusting the distance between the second support 42 and the first support 41 through the lever bolt 202 formed below the second support 42 of the bar support 40, the main bar 30 The front and rear intervals are set, and the upper and lower intervals or the forward and rearward rotation intervals of the main bar 30 are adjusted through the lever-type bolts 203 formed on the upper side of the second support 42. The position of the fixing part 50b is aligned with the lower part of the person's jaw, and the jaw recessed part 50b-6 is provided through the lever-type bolt 204 which penetrates the support panel 50b-3 and the 2nd moving rail 50b-5. ) To the chin of the subject.

In addition, by adjusting the lifting and lowering through the lever-type bolt 205 formed on one side of the case unit 50a-1 of the upper fixing part 50a, the support ring 50a-3 is positioned on the head of the subject, and the support ring Fasten the control bolt 102 of the fixing member (50a-4) formed in (50a-3) to fix the head of the subject.

After setting the interval of the jig device to suit the body structure of the subject as described above, the position of the first, second, sensor fixing parts 70, 80b is adjusted according to the measuring point. By operating the lever-type bolt 206 formed on the moving block 71 of the government unit 70, the upper and lower positions of the first auxiliary fixing bar 74 are adjusted, and the adjustment bolt 75 formed on the first auxiliary fixing bar 74. After adjusting the left and right up and down position of the second auxiliary fixing bar (75), the sensor 60 is mounted on the fixing piece 76 and the sensor through the adjusting bolt 105 formed on the fixing piece 76 again Secure (60) on the measuring point.

The second sensor fixing part 80b first inserts the subject's hand into the fixing pad 80a-2 of the wrist insertion part 80a and then fixes it with a Velcro fastener 80a-1, and a support block 80b-. The moving block 80b-3 is placed at an appropriate position on the moving bar 80b-2 through the lever bolt 207 on one side of the moving block 80b-3 inserted on the moving bar 80b-2 of 1). Fix it. In addition, the fixing bar (80b-4) through the adjusting bolt 101 of the upper side of the moving block (80b-3) and the fixing bar (107b) of the fixed bar (80b-4) penetrating the moving block (80b-3). After adjusting the position of, set the position of the sensor 60 to the adjusting bolt 105 of the fixing piece (80b-5).

When the brain blood flow is measured in a state where the position of the sensor 60 is fixed as described above, the risk of developing a brain-related disease such as a stroke can be confirmed by the spectrum, velocity, and blood flow sounds of the brain blood flow displayed on the monitor. According to the position to measure can have four measuring points toward the head or neck, and can have two measuring points with the wrist can measure multiple blood flow measurement points at the same time. Compared to this, the measurement time can be shortened, thereby increasing the accuracy of the cerebral blood flow measurement results.

In addition, since the measurement of cerebral blood flow in the fixed state of the body, it is possible to prevent the generation of the variable of the measurement result by the movement of the body, it is very convenient because the measurer does not need to fix the sensor directly to the measurement point of the subject.

As described above, the present invention is to fix the head, chest, arm, etc. of the subject to measure the brain blood flow, and then by fixing the sensor to a plurality of measurement points to be measured, it is possible to measure a number of blood cerebral blood flow measurement points at the same time It can save time, increase the accuracy of the measurement results through the fixed data and the extracted data, and it is very efficient because no extra manpower is required to fix the sensor. have.

Claims (12)

The upper and lower height adjustable desk part 10 is equipped with a chest fixing part 20 for fixing the chest to the top of the rear side, the upper side of the chest fixing part 20 support bar for supporting and fixing the main bar 30 40 is mounted, respectively, on each of the main bar 30, the head fixing part 50 for fixing the upper and lower ends of the head and the first sensor fixing part for fixing the plurality of measurement sensors 60 ( 70 is formed, respectively, the head fixing portion 50 is formed of an upper fixing portion (50a) for fixing the upper head and a lower fixing portion (50b) for fixing the jaw, the first sensor fixing portion (70) Body fixing jig device for measuring the blood flow of the cerebral blood flow of the multi-measurement point, characterized in that the fixed bar 71 and the auxiliary bar 72 is formed. According to claim 1, Desk portion 10 is formed with a leg (12) on which the moving wheel 11 is mounted downward, the upper panel 13 and the lower panel 14 is formed on the upper leg (12). In addition, between the upper panel 13 and the lower panel 14 is characterized in that the lifting bar 17 having a tetrahedral shape that can be lifted up and down by the rotation of the screw 16, the handle 15 is mounted. Body fixing jig device for measuring the blood flow of the measuring point. According to claim 2, wherein both sides of the upper panel 13, the wrist fixing portion 80 consisting of a wrist inserting portion (80a) and the second sensor fixing portion (80b) is formed, the wrist inserting portion (80a) A fixing pad 80a-2 on which the Velcro fasteners 80a-1 are mounted is formed, and the moving bar 80b between the support blocks 80b-1 spaced a predetermined distance from the second sensor fixing part 80b. -2) is equipped with a movable block (80b-3) is formed on the upper side of the control bolt 101, the lever bolt 207 is formed on one side, the fixed bar mounted on the movable block (80b-3) (80b-4) The jig device for fixing the body for measuring the blood flow of the brain at the multi-measurement point, characterized in that the fixing piece (80b-5) is formed on one side. According to claim 1, the chest fixing part 20, the lower side is hinged to the desk portion 10, the upper side is formed with a rotation bar 21 is mounted with a lever-type bolt 201 at the end, The lever-type bolt 201 of the end portion of the pivoting bar 21 is fastened to the movable tool 23 on the first moving rail 22 formed on both sides of the center of the desk part 10. Body fixing jig device for blood flow measurement. The bar support part 40 of claim 1, wherein the bar support part 40 is connected to the first support part 41 and the first support part 41 coupled to the chest fixing part 20, and the second support part 42 fixing the main bar 30. It is formed of a), the lower side of the first support 41 is mounted to the chest fixing portion 20, the upper side is mounted to one side of the connection bar 43, the second support 42 is the other side of the connection bar 43 Body fixing jig device for measuring the blood flow of the multi-point measurement, characterized in that coupled. The method of claim 5, wherein the second support 42 is connected to the separation preventing piece 32 formed at the end of the main bar 30, the second support on the connecting bar 43 below the second support 42 The lever-type bolt 202 is formed to enable the forward and backward movement of the 42, and the lever-type bolt 203 is formed on the upper side to enable the forward-backward rotation and the vertical movement of the main bar 30. Body fixing jig device for measuring the blood flow of the multi-point measuring point. The lower fixing part 50b has a case unit 50b-1 inserted into a lower portion of each main bar 30, and a supporting piece 50b- is provided inside the lower portion of each case unit 50b-1. 2) is mounted to face each other, the support panel 50b-3 is formed between each support piece (50b-2) is formed, the bolt mover (50b-) to the center of the support panel (50b-3) The second moving rail 50b-5 having the 4) formed thereon is fastened through the lever bolt 204, and the jaw recess 50b-6 is mounted at one side of the second moving rail 50b-5. Body fixing jig device for measuring the blood flow of the brain of the multi-measurement point. The upper fixing part 50a of the upper fixing part 50a has a case unit 50a-1 inserted into an upper portion of each main bar 30, and the case unit 50a-1 of the case unit 50a-1 is inserted into one side of each case unit 50a-1. The lever-type bolt 205 for adjusting the lifting and lowering is fastened, and the support pieces 50a-2 are mounted to face each other to the lower inner side, and the support rings 50a-3 are disposed between the respective support pieces 50a-2. Is formed and mounted, a plurality of fixing members (50a-4) for fixing the head through the adjustment bolt 102 is mounted on the support ring (50a-3), the forehead fixing panel 50a -5) Jig device for fixing the body for measuring the blood flow of the brain of the multi-measurement point, characterized in that it is mounted. According to claim 1, The first sensor fixing part 70 is a lever-type bolt 206 is fastened to one side and inserted into the moving block 71 and the moving block 71 inserted into the main bar 30, the center. Is formed as a fixed bar 72, the first auxiliary fixing bar 74 is mounted on both sides of the fixing bar 71 through the adjusting bolt 103, the end of the first auxiliary fixing bar 74 The second auxiliary fixing bar 75 is mounted through the adjustment bolt 104, and the fixing piece 76 is fastened to the end of the second auxiliary fixing bar 75. Body fixing jig device for blood flow measurement. According to claim 3 or 9, the fixing piece (80b-5) (76) has a sensor insertion hole 301 is formed in the center, the outer side of one side of the adjustment bolt penetrating the sensor insertion hole (301) ( 105) Jig device for fixing the body for measuring the blood flow of the brain of the multi-measurement point, characterized in that is formed. The jig device for fixing the body of claim 10, wherein the sensor insertion hole (301) is formed in a plurality of fixing pieces (80b-5) (76). 10. The method of claim 3 or 9, wherein the fastening auxiliary piece 77 for fastening the fixing piece (80b-5) 76 and the second auxiliary fixing bar 75 is bent in a cross-section "b" shape to the second It is formed integrally with the end of the auxiliary fixing bar (75), jig device for fixing the body for the measurement of cerebral blood flow of the multi-measurement point, characterized in that the adjustment bolt 105 is fastened to one side bent.

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