KR102352443B1 - Performance Evaluation Device of Detector for Performance Evaluation - Google Patents

Abstract

The present invention relates to a performance evaluation device for a performance evaluation target detector. Position adjusting means for adjusting left and right, distance adjusting means for adjusting the distance between the radiation source 1 and the performance evaluation target detector 2 by moving the performance evaluation target detector 2 installed on the base 100, distance adjusting means Controls the driving of the angle adjusting means and the position, distance and angle adjusting means for adjusting the angle of the performance evaluation target detector 2 in contact with the radiation source 1 by rotating the distance-controlled performance evaluation target detector 2 by It consists of a control and performance evaluation means equipped with a program for analyzing and storing the measured value detected by the evaluation target detector 2 and evaluating the performance of the performance evaluation target detector 2 .

Description

Performance Evaluation Device of Detector for Performance Evaluation

The present invention relates to a performance evaluation target detector performance evaluation device, and more particularly, the maximum sensitivity, spatial resolution, rotational sensitivity distribution by distance, It relates to a performance evaluation target detector performance evaluation device capable of measuring various performance evaluations such as leakage sensitivity in a short time.

Until now, there is no standardized device or equipment for the performance evaluation of the detector subject to radiation performance evaluation, so a simple contact probe or a tungsten probe for characteristic evaluation is used to evaluate the performance of the radiation detector. are doing

In this case, mechanical contact occurs due to the use of only the tungsten probe, and accordingly, the metal electrode film of the radiation detector is damaged or the contact is not made well, so that accurate performance and characteristic evaluation cannot be made. In addition, when wire bonding and ball bonding, which have been used to bond the electrodes of the existing radiation detectors, are used, it takes a lot of time to replace the radiation detectors, which results in the characteristics of the radiation detectors. In the evaluation work, the bonding (bonding) and the bonding (bonding) removal step are necessarily added, and the work efficiency is lowered.

In addition, there is no automated equipment or apparatus for a method for measuring the characteristics of a radiation detector, and there is a problem in that it takes a lot of time to bond and measure an electrode for measuring one radiation detector. In particular, in the case of a radiation detector, a lot of time is required for performance evaluation because various performance evaluations such as maximum sensitivity, spatial resolution, distribution of rotational sensitivity by distance, and leakage sensitivity must be performed according to the utilization of the radiation detector. In addition, when the above performance evaluation is performed manually by humans, there is a problem in that the exposure of the researcher during the experiment cannot be avoided.

Patent Publication No. 10-2015-0034889 (published on April 06, 2015)

The present invention is to solve the problems of the prior art as described above, and while reducing exposure damage during performance evaluation of the performance evaluation target detector, etc., the maximum sensitivity, spatial resolution, rotational sensitivity distribution by distance, leakage of the performance evaluation target detector, etc. An object of the present invention is to provide a performance evaluation target detector performance evaluation device capable of measuring various performance evaluations such as sensitivity in a short time.

The object as described above, the plate-shaped base; Position adjusting means fixed on the base and fixed to the upper portion of the radiation source and adjusting the position of the fixed radiation source up, down, front and rear, left and right; a distance adjusting means installed on the base and moving the performance evaluation target detector to adjust the distance between the radiation source and the performance evaluation target detector; an angle adjusting means for adjusting the angle of the performance evaluation target detector in contact with the radiation source by rotating the performance evaluation target detector whose distance is adjusted by the distance adjusting means; and control and performance evaluation in which a program for controlling the driving of the position, distance and angle adjusting means, analyzing and storing the measured values detected by the performance evaluation target detector, and evaluating the performance of the performance evaluation target detector is mounted It is achieved by a performance evaluation target detector performance evaluation device comprising means.

In the above embodiment, the base may be an optical bread board.

In the above embodiment, the position adjusting means includes a pedestal fixed to the base, a support plate disposed on the upper portion of the pedestal and having guides formed in the upper center in the left and right directions, both ends are coupled to the pedestal and the support plate, respectively, and the middle portion is a jack having an adjustment shaft having two pairs of links to be folded, and a handle coupled to two connecting members disposed between the foldable intermediate portions of the two pairs of links; a left and right moving plate in which a guide groove coupled to the guide on the upper part of the support plate is formed in the left and right directions on the bottom surface and the guide is formed in the front and rear directions at the upper center; a front-rear moving plate having a guide groove coupled to the guide on the upper side of the left-right moving plate on a bottom surface formed in the front-rear direction; and an annular radiation source holder fixed to the upper portion of the front and rear moving plate with a plurality of fixing screws to fix the radiation source.

In the above embodiment, a through hole having a spiral portion on inner surfaces of the left and right moving plate and the front and rear moving plate is formed in a lateral direction, and it further comprises a set screw screwed to the through hole so that the end abuts against the guide. do it with

In the above embodiment, the distance adjusting means, a pair of LM guides erected on the base in the near-field direction from the far-distance centering on the position adjusting means; a feed shaft installed on the base parallel to the LM guide; a movable body mounted on the LM guide and moving along the transfer shaft; And it is characterized in that it is configured to include a motor for adjusting a distance that is coupled to the end of the transfer shaft and the motor shaft are interlocked to rotate the transfer shaft to move the movable body.

In the above embodiment, it is characterized in that a speed reducer for adjusting the rotational speed of the transfer shaft is provided between the distance adjusting motor and the transfer shaft.

In the above embodiment, the distance adjusting motor may be a stepping motor.

In the above embodiment, the angle adjusting means includes: a motor for adjusting the angle fixed on the movable body; and a performance evaluation target detector fixture for adjusting the angle of the performance evaluation target detector in contact with the radiation source by being mounted on the performance evaluation target detector and coupled to the motor shaft to interlock with the angle adjusting motor.

In the above embodiment, the driving control and performance evaluation means includes a distance adjusting motor driving unit for driving a distance adjusting motor and an angle adjusting motor driving unit for driving an angle adjusting motor, the distance and angle between the radiation source and the performance evaluation target detector a driving control unit for controlling each; and a performance evaluation unit that analyzes a measurement value detected by the performance evaluation target detector to evaluate the performance of the performance evaluation target detector.

In the above embodiment, it is installed on the periphery of both ends of the LM guide is characterized in that it is configured to further include a limit switch for limiting the movement of the movable body moving by the distance control motor.

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According to the present invention, by adjusting the distance and angle between a radiation source emitting radiation and a performance evaluation target detector such as a radiation dosimeter, a gamma probe, a gamma camera, and a gamma ray performance evaluation target detector from a distance, the radiation source measured from the performance evaluation target detector Maximum sensitivity, spatial resolution, rotational sensitivity distribution by distance, and leakage sensitivity of the performance evaluation target detector, etc., while reducing exposure damage during performance evaluation of the performance evaluation target detector, etc. by analyzing the measurement value and evaluating the performance of the performance evaluation target detector There is an effect that can precisely measure various performance evaluation data such as performance evaluation data within a short time while changing the performance evaluation target detector.

1 is a schematic plan view of a performance evaluation target detector performance evaluation apparatus according to the present invention.
2 is a schematic side view of a performance evaluation target detector performance evaluation apparatus according to the present invention.
3 is a perspective view of a performance evaluation target detector performance evaluation apparatus according to an embodiment of the present invention.
4A to 4C are perspective and plan views of the position adjusting means in FIG. 3 .
5A to 5C are perspective and side views of the angle adjusting means in FIG. 3 .
6 is a perspective view showing the coupling relationship between the transfer shaft and the limit switch in FIG. 3 .
7 is a plan view showing a coupling relationship between the distance control motor and the transfer shaft in FIG. 3 .
8 is a functional block diagram for adjusting the distance and angle between the radiation source and the performance evaluation target detector in FIG. 3 .
9 is a flowchart illustrating a performance evaluation method of a performance evaluation target detector according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with the accompanying drawings.

1 is a schematic plan view of a performance evaluation target detector performance evaluation apparatus according to the present invention, and FIG. 2 is a schematic side view of a performance evaluation target detector performance evaluation apparatus according to the present invention.

1 and 2, the performance evaluation target detector performance evaluation apparatus according to the present invention is a plate-shaped base 100, fixed on the base 100, the radiation source 1 is fixed thereon, and the fixed radiation source ( Position adjusting means for adjusting the position of 1) up, down, front, back, left and right, is erected on the base 100 and moves the performance evaluation target detector 2 to adjust the distance between the radiation source 1 and the performance evaluation target detector 2 Adjusting means, angle adjusting means for adjusting the angle of the performance evaluation target detector 2 in contact with the radiation source 1 by rotating the performance evaluation target detector 2 whose distance is adjusted by the distance adjusting means, and position, distance and angle adjustment It consists of a control and performance evaluation means loaded with a program for controlling the driving of the means, analyzing and storing the measured values detected by the performance evaluation target detector 2, and evaluating the performance of the performance evaluation target detector 2 do.

3 is a perspective view of a performance evaluation target detector performance evaluation apparatus according to an embodiment of the present invention.

3, the performance evaluation target detector performance evaluation apparatus according to the embodiment of the present invention, the base plate-shaped base 100, fixed on the base 100, the radiation of the reference for performance evaluation on the upper portion A radiation source (1) that emits is fixed and a position adjusting means for adjusting the position of the fixed radiation source (1) up, down, front, back, left, right, and erected on the base 100, a radiation dosimeter, a gamma probe, a gamma camera, a gamma ray performance evaluation target detector, etc. Distance adjusting means for adjusting the distance between the radiation source 1 and the performance evaluation target detector 2 by moving the various performance evaluation target detectors 2 , and by rotating the distance-adjusted performance evaluation target detector 2 to rotate the radiation source 1 The angle adjusting means for adjusting the angle with the performance evaluation target detector 2 in contact with the performance evaluation target detector 2, the position of the performance evaluation target detector 2, the distance between the radiation source 1 and the performance evaluation target detector 2, and the driving of the angle adjusting means It consists of control and performance evaluation means, such as a PC, etc. equipped with a program for controlling, analyzing and storing the measured value detected by the performance evaluation target detector 2 and evaluating the performance of the performance evaluation target detector 2 .

Here, the base 100 may use an optical bread board to increase the ease and precision of installation.

4A to 4C are perspective and plan views of the position adjusting means in FIG. 3 .

Referring to FIGS. 3 and 4A to 4C , the position adjusting means has a structure that can be moved in three axial directions of up, down, front, back, left, and right, and the base 211 fixed to the base 100, the base 211 of the A support plate 212 disposed on the upper portion and provided with a guide 217 in the upper center in the left and right directions, two pairs of links 213 having both ends coupled to the support 211 and the support plate 212 and folding the middle portion, and A jack 210 having an adjustment shaft 215 having a handle 216 coupled to two connecting members 214 disposed between the folded middle portions of the two pairs of links 213 (published utility model) 1997-001368), a guide groove 221 coupled to the guide 217 of the upper portion of the support plate 212 on the bottom surface is formed in the left and right directions, and the guide 222 is formed in the front and rear directions in the upper center of the left and right moving plate 220 ) (refer to Registered Utility Model No. 20-0349653), a forward and backward moving plate 230 in which a guide groove 231 coupled to the guide 222 of the upper left and right moving plate 220 is formed in the front-rear direction on the bottom surface (registered utility model) No. 20-0349653) and a plurality of fixing screws 241 are fixed to the upper portion of the front and rear moving plate 230 and are composed of an annular radiation source holder 240 for fixing the radiation source 1 .

In the above embodiment, a through hole having a spiral portion on the inner surface of the left and right moving plate 220 and the front and rear moving plate 230 is formed in the lateral direction, and the end of the through hole, not shown, is in contact with the guides 217 and 222. By having the fixing screws 223 and 232 screwed together, the position of the radiation source 1 moved forward, backward, left and right can be fixed.

In the above embodiment, it has been described as an example that the vertical, forward, left, and right position movement of the radiation source 1 is performed manually. However, the present invention is not limited thereto, and may be performed automatically or remotely by a power source such as a motor and wired/wireless communication means.

5A to 5C are perspective and side views of the angle adjusting means in FIG. 3 .

Referring to FIGS. 3 and 5A to 5C , the angle adjusting means includes a motor 410 for adjusting the angle, such as a stepping motor fixed on a moving body 330 having a predetermined height and having a plane thereon, and a radiation dosimeter for performance evaluation. , gamma probe, gamma camera, gamma-ray performance evaluation target detector (2) of various sizes and shapes, such as flexible performance evaluation target detector (2) is mounted and coupled to the motor shaft so as to interlock with the angle adjustment motor (410) to contact the radiation source (1) and a performance evaluation target detector fixture 420 for adjusting the angle of the performance evaluation target detector 2 . Here, the performance evaluation target detector fixture 420 is to be made of a material or shape that can prevent damage without affecting the performance evaluation target detector, such as a fixed radiation dosimeter, gamma probe, gamma camera, gamma ray performance evaluation target detector, etc. can

In the above embodiment, the performance evaluation target detector fixture 2 does not affect the transmission of radiation, not a metal material, and is fixed using a screw-type structure so that the performance evaluation target detector can be firmly fixed to various sizes. can be configured to do so.

6 is a perspective view showing the coupling relationship between the transfer shaft and the limit switch in FIG. 3 , and FIG. 7 is a plan view showing the coupling relationship between the distance adjusting motor and the transfer shaft in FIG. 3 .

Referring to FIGS. 3, 6 and 7, the distance adjusting means is a pair of LM guides 310 including two rails installed in parallel on the base 100 in the near-distance direction from the far-distance centering on the position adjusting means. ), the feed shaft 320 installed on the base 100 in parallel to the pair of LM guides 310, and the LM guide ( The movable body 330 riding on the 310 and the end of the conveying shaft 320 and the motor shaft are coupled to each other to rotate the conveying shaft 320 to move the movable body 330 by being composed of a distance control motor 340 that moves the movable body 330. , it is possible to transport the performance evaluation target detector from the radiation source to a long distance where the performance evaluation target detector for performance evaluation can be mounted on the detection fixture, or to a short distance where the performance evaluation target detector can measure the radiation of the radiation source while minimizing exposure damage.

At this time, a speed reducer 350 for decelerating and adjusting the rotational speed of the transfer shaft 320 is provided between the distance adjusting motor 340 and the transfer shaft 320 , so that the performance evaluation target detector is finely moved to form a radiation source and a performance evaluation target detector You can fine-tune the distance between In addition, by using a stepping motor that is easy to drive at a constant speed as the distance adjustment motor 340 , the distance between the radiation source and the performance evaluation target detector is reduced by finely moving the performance evaluation target detector without providing a separate reducer 350 . can be fine-tuned.

8 is a functional block diagram for adjusting the distance and angle between the radiation source and the performance evaluation target detector in FIG. 3 .

3 and 8, the driving control and performance evaluation means such as a PC, a laptop computer, and the like, the distance adjustment motor driving unit 511 for driving the distance adjustment motor 340 and the angle adjustment for driving the angle adjustment motor 410 for A motor driving unit 512 is provided to analyze the measurement value detected by the driving control unit 510 for adjusting the distance and angle between the radiation source 1 and the performance evaluation target detector 2, respectively, and the performance evaluation target detector 2 and a performance evaluation unit 520 for evaluating the performance of the corresponding performance evaluation target detector 2 and a display unit 521 for showing the performance evaluation process and evaluation result of the performance evaluation target detector 2 .

Here, by having limit switches 513 and 514 installed around both ends of the LM guide 310 to limit the movement of the movable body 330 moving by the distance adjusting motor 340, the movable body 330 is It is possible to prevent an accident that deviates from the LM guide 310 in advance.

9 is a flowchart illustrating a performance evaluation method of a performance evaluation target detector according to an embodiment of the present invention.

8 and 9, the performance evaluation target detector performance evaluation method, the first step (S110) of fixing the radiation source 1 to the radiation source fixture 240, performance evaluation on the performance evaluation target detector fixture 420 a second step (S120) of mounting the performance evaluation target detector 2 for A third step (S130) of connecting 410 to the driving control and performance evaluation means, a fourth step (S140) of initializing the positions of the distance control motor 340 and the angle control motor 410, etc. (S140), drive control and performance A fifth step of controlling the distance and angle between the radiation source 1 and the performance evaluation target detector 2 by driving the distance adjusting motor 340 and the angle adjusting motor 410 according to the program mounted on the evaluation means (S150); and a sixth step (S160) of receiving and analyzing the measurement value measured by the performance evaluation target detector 2 to evaluate and store the performance of the performance evaluation target detector 2 .

In the above embodiment, the first step includes the step of adjusting the position by moving the radiation source 1 fixed to the radiation source fixture 240 up, down, front and rear, left and right, and thus the distance between the performance evaluation target detector and the radiation source and the performance evaluation target The angle between the detector and the radiation source can be precisely adjusted.

The driving control and performance evaluation means in the performance evaluation method of the performance evaluation target detector as above perform performance evaluation by sequentially and successively evaluating the maximum sensitivity, spatial resolution, rotational sensitivity distribution by distance, and leakage sensitivity while replacing the performance evaluation target detector. It is possible to quickly and accurately measure the performance evaluation of the target detector while minimizing the exposure damage.

In the above embodiment, only the distance has been described as an example without spatial distinction between the driving control and performance evaluation means and other components, but the present invention is not limited thereto. The rest of the components can be placed in a separate shielding room that can shield the radiation. Of course, a camera may be installed in a separately provided shielding room so that a measurer can check the inside of the shielding room at any time.

Although specific embodiments according to the present invention have been described so far, various modifications are possible without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined by the following claims as well as the claims and equivalents.

1: Radiation source 2: Detector subject to performance evaluation
100: base 210: jack
211: pedestal 212: support plate
213: link 214: connecting member
215: adjustment shaft 216: handle
217, 222: guide 220: left and right moving plate
221, 231: guide groove 223, 232, 241: set screw
230: forward and backward moving plate 240: radiation source fixture
310: LM guide 320: feed axis
330: moving body 340: distance control motor
350: reducer 410: motor for angle adjustment
420: performance evaluation target detector fixture 510: drive control unit
511: motor driving unit for distance adjustment 512: motor driving unit for angle adjustment
513, 514: limit switch 520: performance evaluation unit
530: display

Claims (13)

Plate-shaped base 100;
a position adjusting means fixed on the base 100 and having a radiation source 1 fixed thereon and adjusting the position of the fixed radiation source 1 up, down, front and rear, left and right;
a distance adjusting means installed on the base 100 and moving the performance evaluation target detector 2 to adjust the distance between the radiation source 1 and the performance evaluation target detector 2;
an angle adjusting means for adjusting the angle of the performance evaluation target detector 2 in contact with the radiation source 1 by rotating the performance evaluation target detector 2 whose distance is adjusted by the distance adjusting means; and
A program for controlling the driving of the position, distance and angle adjusting means, analyzing and storing the measured values detected by the performance evaluation target detector 2, and evaluating the performance of the performance evaluation target detector 2 is loaded used control and performance evaluation means
including,
The position adjusting means,
A pedestal 211 fixed to the base 100, a support plate 212 disposed on the upper portion of the pedestal 211 and having a guide 217 formed in the left and right directions at the upper center, both ends of the pedestal 211 and the support plate A handle coupled to two pairs of links 213 each coupled to 212 and having an intermediate portion folded, and two connecting members 214 disposed between the folded intermediate portions of the two pairs of links 213 ( a jack 210 with an adjustment shaft 215 with a 216 ;
a left and right moving plate 220 in which a guide groove 221 coupled to the guide 217 of the upper portion of the support plate 212 is formed in the left and right directions on the bottom surface and the guide 222 is formed in the front and rear directions at the upper center;
a front-rear moving plate 230 in which a guide groove 231 coupled to the guide 222 of the upper left and right moving plate 220 is formed in a front-rear direction on a bottom surface; and
An annular radiation source holder 240 fixed to the upper portion of the front and rear moving plate 230 with a plurality of fixing screws 241 to fix the radiation source
Performance evaluation target detector performance evaluation device, characterized in that it is configured to include a. According to claim 1,
The base 100 is an optical bread board (optical bread board), the performance evaluation target detector performance evaluation device. delete According to claim 1,
A through hole having a spiral portion is formed on the inner surface of the left and right moving plate 220 and the front and rear moving plate 230 in the lateral direction, and the ends are screwed to the through hole to abut against the guides 217 and 222 . The performance evaluation target detector performance evaluation device, characterized in that it further comprises screws (223, 232). According to claim 1,
The distance adjusting means,
A pair of LM guides 310 to be erected on the base 100 in the short-distance direction centering on the position adjusting means;
a transfer shaft 320 installed on the base 100 in parallel with the LM guide 310;
a movable body 330 mounted on the LM guide 310 and moving along the transfer shaft 320; and
The end of the transfer shaft 320 and the motor shaft are coupled to each other to rotate the transfer shaft 320 to move the movable body 330 by a distance adjusting motor 340 .
Performance evaluation target detector performance evaluation device, characterized in that it is configured to include a. 6. The method of claim 5,
A performance evaluation target detector performance evaluation device, characterized in that a speed reducer (350) for adjusting the rotation speed of the transfer shaft (320) is provided between the distance adjustment motor (340) and the transfer shaft (320). 6. The method of claim 5,
The distance adjustment motor 340 is a performance evaluation target detector performance evaluation device, characterized in that the stepping motor. According to claim 1,
The angle adjustment means,
a motor 410 for adjusting an angle fixed on the movable body 330; and
Performance evaluation target detector fixture 420 for adjusting the angle of the performance evaluation target detector 2 is mounted and the performance evaluation target detector 2 is coupled to the motor shaft so as to interlock with the angle adjustment motor 410 to adjust the angle of the performance evaluation target detector 2 in contact with the radiation source 1 )
Performance evaluation target detector performance evaluation device, characterized in that it is configured to include a. According to claim 1,
The control and performance evaluation means,
A distance adjustment motor driving unit 511 for driving the distance adjusting motor 340 and an angle adjusting motor driving unit 512 for driving the angle adjusting motor 410 are provided, the radiation source 1 and the performance evaluation target detector 2 a driving control unit 510 for adjusting a distance and an angle, respectively; and
A performance evaluation unit 520 that analyzes the measurement value detected by the performance evaluation target detector 2 to evaluate the performance of the performance evaluation target detector 2
Performance evaluation target detector performance evaluation device, characterized in that it is configured to include a. 10. The method of claim 9,
Installed around both ends of the LM guide 310 and further comprising limit switches 513 and 514 for limiting the movement of the movable body 330 moving by the distance adjusting motor 340 , a performance evaluation target detector performance evaluation device. delete delete delete

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