JP4407054B2 - Dust monitor and operation method thereof - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
This invention passes the air in the atmosphere of object through a filter paper, collects the dust (dust) which exists in the air on a filter paper, and measures the radiation radiated from the dust including a radiation detector It is related with the dust monitor for monitoring the kind, density | concentration, etc. of the dust (radioactive dust) which measures by and radiates the radiation contained in the atmosphere.
[0002]
[Prior art]
FIG. 6 is a conceptual diagram showing the configuration of the dust monitor. The dust monitor having this configuration uses the pump 1 to depressurize the dust collection unit 3, sucks air 10 in the measurement target space such as a work environment area monitored through the air supply pipe 2 into the dust collection unit 3, and filters the air 10 into filter paper. 4 is sent to the exhaust system through the flow meter 5. The flow meter 5 knows the amount of air that has passed through the filter paper 4 to collect dust (hereinafter, dust collection is referred to as dust collection), and obtains the concentration of radioactive dust in the air 10 in the measurement target space. It is necessary for The dust monitor detects radiation radiated from the dust 6 collected on the filter paper 4 with a radiation detector (hereinafter abbreviated as a detector) 7 disposed immediately above the filter paper 4, and performs measurement / calculation processing. Unit 8 measures the number of radiation having a pulse peak value (pulse peak value can be converted to energy) that is equal to or higher than the set pulse peak value, calculates the type and concentration of radioactive dust, and displays them on the display / alarm unit 9 Display and alert if necessary.
[0003]
FIG. 7 is a conceptual diagram showing a configuration according to the prior art in the vicinity of a dust collecting portion (referred to as a dust collecting portion for distinguishing from the dust collecting portion 3 in FIG. 6) of a dust monitor using a long paper-like filter paper as the filter paper 4. FIG. 8 is a time chart showing filter paper feeding time, dust collection time (hereinafter referred to as dust collection time), radiation measurement time (hereinafter abbreviated as measurement time) and the like in this dust monitor. Note that the filter paper feed time is about several seconds, which is sufficiently shorter than the dust collection time and the measurement time in units of time. Therefore, in FIG. 8, the transport start time and the transport end time are shown as the same time, and in the following, This will be explained based on.
[0004]
In the following, time T ₁ 1 etc. simply T ₁ Marked as 1 mag.
The filter paper 4 is supplied from the filter paper supply unit 41 and taken up by the filter paper winding unit 42. The filter paper 4 supplied from the filter paper supply unit 41 is fed at a predetermined filter paper feed time interval (T ₁ 1 to T ₂ 1, T ₂ 1 to T _Three 1 and the like, hereinafter, the filter paper feed time interval is abbreviated as filter paper feed interval) and is conveyed by a predetermined length (L: filter paper feed pitch) in FIG. Dust in the air 10 sucked from the measurement target space is collected. Therefore, the predetermined filter paper feed interval and the dust collection time are the same. The dust 6 collected on the filter paper 4 is sent to the filter paper immediately after collection (T ₁ 1, T ₂ 1, T _Three 1 etc.) and is transported directly under the detector 7 for a predetermined waiting time (T ₁ 1 to T ₁ 2, T ₂ 1 to T ₂ 2 etc.), the radiation emitted by the detector 7 is changed to a predetermined measurement time (T ₁ 2 to T ₂ 1, T ₂ 2 to T _Three 1) and so on. As a matter of course, the distance between the dust collector and the detector 7 is set to the filter paper feed pitch L.
[0005]
For reference, when the time example shown in FIG. 8 is shown, the predetermined filter paper feeding interval, that is, the predetermined dust collection time is 3 hours, the filter paper feeding time is several seconds, the predetermined standby time is 2 hours, and the predetermined measurement time is 1 hour. The sum of the predetermined standby time and the predetermined measurement time is the same as the predetermined dust collection time.
The predetermined dust collection time and the predetermined measurement time are determined from the viewpoint of obtaining a certain number of counts, reducing statistical errors, and ensuring predetermined measurement accuracy.
[0006]
The waiting time zone is provided before radiation measurement (hereinafter abbreviated as “measurement”) by reducing the radiation emitted from the daughter radionuclide of the natural radionuclide, Radon Tron, reducing this effect and measuring. This is to increase the measurement accuracy of radiation from the target uranium and plutonium.
This will be described in more detail below.
[0007]
In the air, there is a dust containing a natural radionuclide, Radon Tron (gas), and its daughter nuclide. In particular, in a confined space, they are confined and their concentration increases, and depending on the situation, the radiation dose from the daughter nuclide of Radon Tron cannot be ignored. When Radon Tron that has entered the measurement space as a gas collapses and becomes a daughter nuclide of Radon Tron, it becomes dust containing the daughter nuclide of Radon Tron. This dust is in the form of aerosol and contains many particles having a particle size of 1 micron or less. Some dust passes through the filter paper, but some dust is collected inside the filter paper, and is also collected on the surface of the filter paper. Moreover, the radiation emitted from the daughter nuclide of Radon Tron is superimposed on the radiation emitted from the uranium, plutonium, etc. that are measured by the dust monitor (alpha rays and β rays are the measurement targets) Impair measurement accuracy. However, the half-lives of uranium, plutonium, and the like to be measured are sufficiently long, but many of the daughter nuclides of Radon-Tron contain very short half-lives. For example, if a waiting time of 2 hours is provided after dust 6 is collected, the radiation from the radon-tron daughter nuclide with a short half-life is greatly reduced, and the radiation from the radon-tron daughter nuclide as a whole is reduced. The accuracy as a dust monitor is improved.
[0008]
The longer the waiting time, the more the influence of radiation from the daughter nuclide of Radon Tron can be reduced. However, there is a restriction that the measurement time interval cannot be made too long for monitoring, so it is limited to about 2 hours.
In the radon-tron daughter nuclide, which has a large abundance ratio, the half life of RaA is about 3 minutes, the half life of RaB is less than 30 minutes, and the half life of RaC is about 20 minutes. Less than seconds or more than days. Therefore, if the standby time is set to 1 to 2 hours, the effects of short-lived nuclides including RaA are almost eliminated, and some effects of RaB and RaC remain. A nuclide with a half-life of more than a day is not a problem because it has little influence by nature unless it is accumulated in a closed space.
[0009]
[Problems to be solved by the invention]
In such a conventional dust monitor, when the amount of dust in the measurement target space 10 increases, the filter paper 4 is clogged during the measurement time (measurement cycle period) including the standby time, and the air resistance increases and the pump 1 Exceeding the capacity limit, dust collection with a predetermined air flow rate cannot be continued, and the pump 1 is overloaded. Therefore, when the filter paper 4 is clogged and the flow rate of the flow meter 5 cannot maintain the predetermined value, it is necessary to transport the filter paper 4 and change the dust collection position, and the filter paper at the measurement position directly below the detector 7. If the measurement is being performed at that time, the measurement is interrupted, and if it is during the standby time, the sample is transported without being measured. Therefore, the filter paper 4 in the part where the measurement is interrupted or the part which is transported without being measured is cut and measured again by another apparatus.
[0010]
The problem of the present invention is that even if the filter paper is clogged during the measurement time including the standby time, the troublesome work of cutting the filter paper and measuring the cut filter paper as described above and another radiation measurement device are required. It is to provide a dust monitor that does not.
[0011]
[Means for Solving the Problems]
The inventions of claims 1 and 2 are inventions related to a dust monitor for solving the above-mentioned problems, and inventions of claims 3 to 6 are inventions related to a method of operating the dust monitor.
The invention of claim 1 monitors the radioactive dust present in the measurement target space by collecting dust contained in the air supplied from the measurement target space on the filter paper and measuring the radiation emitted from the dust. A dust monitor, a filter paper transport means for transporting a long filter paper at a predetermined pitch, a plurality of dust collection areas arranged at predetermined intervals in the filter paper transport direction, and any one of the dust collection areas A dust collector having a switching means for selectively operating the detector, a detector that is disposed downstream of the dust collector, and that measures radiation emitted from the dust collected on the filter paper, Means for detecting the clogging state of the filter paper and control means for switching the dust collection area when the clogging is in the measurement cycle period based on the occurrence of the clogging detection signal.
[0012]
In this invention, until the measurement of the filter paper conveyed to the position of the detector is completed, that is, when the filter paper is clogged during the measurement cycle period, the control means drives the switching means to remove the uncollected dust. Since the dust collection position can be switched to the filter paper position, dust collection and standby / measurement can be continued without transporting the filter paper.
According to a second aspect of the present invention, in the dust monitor of the first aspect, the predetermined pitch, the predetermined interval, and the interval between the most downstream dust collecting region of the dust collecting portion and the detector are the same. .
[0013]
In this way, the configuration of the dust monitor is the most compact.
The invention according to claim 3 is the method of operating the dust monitor according to claim 2, and when the radiation of the clogged filter paper is not in a state of being measured, the dust monitor is predetermined in the most downstream dust collecting region of the dust collecting unit. Dust is collected on the filter paper over the dust collection time, and after a predetermined waiting time has elapsed from the end of dust collection, the radiation of the dust collected over the predetermined measurement time is measured, and the dust is collected. When the filter paper on the dust collection area is clogged during the measurement cycle, the switching means switches the dust collection area to collect the dust to the adjacent dust collection area, and further, on the switched dust collection area. When the filter paper is clogged, repeat the switching to the next dust collection area, do not carry the filter paper until the measurement of the predetermined measurement time is finished, when the measurement is finished and the filter paper is carried, The filter paper position in the dust collection state If the strike collection time has reached the predetermined dust collection time, the dust collection area is not switched. If the dust collection time has not reached the predetermined dust collection time, one dust collection area is used. Switch to the detector side.
[0014]
In this invention, if the filter paper is clogged by the end of the measurement of the filter paper transported to the detector position, the filter paper is not transported depending on the filter paper clogging by switching the dust collection area of the filter paper. Measurements including waiting are not interrupted by clogging. Also, when transporting the filter paper after the measurement is completed, if the dust collection time has reached the predetermined dust collection time, the dust collection area is not switched, and if the dust collection time has not been reached, the dust collection time is not reached. Since one dust area is switched to the detector side, at that time, if the dust collection time has reached the predetermined dust collection time, new dust collection is started at the next dust collection position, and the predetermined dust collection time is reached. If not, dust collection is continued at the same filter paper position, and a predetermined dust collection time can be secured.
[0015]
The invention of claim 4 is the invention of claim 3, wherein the total time of the predetermined waiting time and the predetermined measurement time is set as a predetermined filter paper feeding interval and a predetermined dust collection time, and when the filter paper is clogged, In addition to the measurement at every predetermined filter paper feed interval, even if it is inserted in the middle of the predetermined filter paper feed interval, the standby time can be made longer than the predetermined standby time, and the measurement time can be made the same as the predetermined measurement time If the above condition is satisfied, a measurement is inserted in the middle of the predetermined filter paper feed interval to measure the clogged filter paper position, and the dust collection time at the filter paper position next to the clogged filter paper position is calculated. The predetermined dust collection time is extended by the dust collection time within the predetermined filter paper feed interval where clogging has occurred.
[0016]
In this invention, a measurement result is obtained at every predetermined filter paper feeding interval, and when clogging occurs, a measurement result that secures a predetermined standby time and a predetermined measurement time is added in the middle of the subsequent predetermined filter paper feeding interval. Therefore, predetermined measurement accuracy can be ensured, and the time for acquiring the measurement result can be set in advance, excluding the measurement result added in the middle.
[0017]
The invention of claim 5 is the invention of claim 3, in which the total time of the predetermined waiting time and the predetermined measurement time is set as a predetermined filter paper feeding interval and a predetermined dust collecting time, and the filter paper is clogged. Haha Reduce the waiting time from the specified waiting time and In addition, The measurement time is shortened from the predetermined measurement time, the clogged filter paper position is measured within one predetermined filter paper feed interval, and the dust collection time at the filter paper position next to the clogged filter paper position is clogged. Is extended from the predetermined dust collection time by the dust collection time within the predetermined filter paper feed interval.
[0018]
In this invention as well, the measurement result is obtained at every predetermined filter paper feed interval, and when clogged, the measurement result is added in the middle of the next predetermined filter paper feed interval. The time for acquiring the measurement result can be set in advance, and the measurement result of the clogged filter paper position can be quickly grasped.
The invention of claim 6 is the invention of claim 3, wherein the total time of the predetermined waiting time and the predetermined measurement time is set as a predetermined filter paper feeding interval and a predetermined dust collection time, and measurement of the clogged filter paper position is performed. After securing at least a predetermined waiting time as a waiting time, the measurement is performed over a predetermined measuring time, and the measurement of the clogged filter paper position is completed for the filter paper position that is not clogged after the clogged filter paper position. If the dust collection time has reached the specified dust collection time, immediately, or if the dust collection time has not reached the specified dust collection time, the dust collection time has reached the specified dust collection time. When the filter paper is not clogged, it returns to the timing of dust collection, standby and measurement at a predetermined filter paper feed interval.
[0019]
In the present invention, since the predetermined standby time and the predetermined measurement time are secured even in the measurement of the clogged filter paper position, the predetermined measurement accuracy can be secured even in the clogged filter paper position, and the clogged filter paper position. Is performed without being restricted by the predetermined filter paper feed interval, it is possible to quickly grasp the measurement result of the clogged filter paper position.
[0020]
DETAILED DESCRIPTION OF THE INVENTION
The dust monitor according to the present invention is the same as that shown in FIG. 6 in its basic configuration, but a plurality of dust collection areas arranged at a filter paper feed pitch in a portion (dust collection section) that collects dust by the filter paper 4 and these dust collection areas. Having a means to switch the dust collection area is different from the dust monitor of the prior art, and when the filter paper being collected is clogged during the measurement including the standby (during the measurement cycle) Correspondingly by switching the dust collection position of the filter paper, the filter paper is not transported until the predetermined measurement is completed, and when the measurement is finished and the filter paper is transported, the dust collection time reaches the predetermined dust collection time. If the dust collection area is not switched, start dust collection at the new filter paper position, and if the specified dust collection time has not been reached, return one dust collection area to the detector side Continue collecting dust at the filter paper position and clogged filter At the time of measurement of the position is completed, so that the dust collecting area is back to the first dust collection area.
[0021]
First, an embodiment of a dust monitor according to the present invention will be described using examples.
In addition, the same part number is attached | subjected to the part of the same function as a prior art.
[Example of dust monitor]
Since the dust monitor according to the present invention has the same overall configuration as that of FIG. 6, the description of the overall configuration is omitted here.
[0022]
As described above, the feature of this embodiment resides in the dust collecting portion. FIG. 1 is a conceptual diagram showing the configuration of the dust collecting section. In this embodiment, the dust collecting part shown in FIG. 1 is arranged at a position corresponding to the filter paper 4 of FIG.
As described above, the dust collecting section includes a suction head 31a having three dust collecting regions 311, 312 and 313 arranged at equal intervals in the conveying direction of the filter paper 4 with a filter paper feed pitch L therebetween, and a dust collecting region. And a solenoid valve 32 which is a switching means for switching between. The three dust collection areas are arranged between the detector 7 and the filter paper supply unit 41. The first dust collection area 311 closest to the detector 7 is separated from the detector 7 by the filter paper feed pitch L, and further the filter paper. On the supply unit 41 side, there is a second dust collection area 312 and a third dust collection area 313. The electromagnetic valve 32 is installed on each suction pump 1 side of the three dust collection regions.
[0023]
In the dust monitor having the dust collecting section configured as described above, when the filter paper 4 is not clogged, the filter paper 4 is fed by a filter paper feed pitch L at every predetermined filter paper feed interval that is the same as the predetermined dust collection time. It is transported, collected on the first dust collection area 311, transported to the position of the detector 7, and measured over a predetermined measurement time after a predetermined standby time. This situation is not different from the conventional dust monitor.
[0024]
However, if the filter paper 4 during dust collection is clogged before the measurement including standby is completed, the dust collection area is moved from the first dust collection area 311 to the next by the electromagnetic valve 32 as the switching means. When the filter paper 4 is clogged in the second dust collection area 312, the second dust collection area 312 is switched to the third dust collection area 312. The dust collection condition of the dust monitor is set so that the filter paper 4 is not clogged within a predetermined dust collection time in a normal state, and clogging up to the third dust collection area 313 is very rare. Therefore, the measurement is finished during the dust collection in the second dust collection region 312 or the third dust collection region 313.
[0025]
The clogging of the filter paper 4 is detected by detecting the state in which the pump 1 cannot maintain a predetermined flow rate with the flow meter 5. That is, the flow meter 5 also serves as a means for detecting the clogged state of the filter paper 4. By this clogging detection signal, a control unit (not shown) drives the electromagnetic valve 32 to switch the dust collection area.
In this way, when the filter paper 4 during dust collection is clogged before the measurement including standby is completed, the dust collection area is switched to the dust collection area on the filter paper supply unit 41 side, and the dust collection area is switched. Since new dust collection is started in the dust region and the filter paper 4 is not conveyed, the predetermined measurement can be terminated and the dust collection is not interrupted.
[0026]
When the predetermined measurement is completed, the filter paper 4 is conveyed by the filter paper feed pitch L, and the dust collection area is switched to the detector 7 side, and dust collection is continued at the same filter paper position, and the first dust collection area 311 is collected. The position of the filter paper clogged with is measured by taking a necessary waiting time and a necessary measuring time.
Here, the “required standby time” and “necessary measurement time” are described as the minimum required time by shortening the standby time and measurement time of the clogged filter paper position from the predetermined time depending on the operation method. This is because there are cases in which
[0027]
When this measurement is completed, it is determined whether or not the dust collection time at the filter paper position where dust is collected at this time has reached a predetermined dust collection time. When it is transported and dust collection at a new filter paper position starts and does not reach, the filter paper is transported by the filter paper feed pitch L, and the dust collection area is switched to the detector 7 side, and the same filter paper position. Dust collection at will continue. The filter paper transported to the position of the detector 7 continues in the standby state until the necessary standby time is reached if the previous state is in the standby state, and in the standby state in the case of the dust collecting state. become.
[0028]
In this way, when the measurement of the clogged filter paper position is completed, the dust collection area returns to the first dust collection area 311 to prepare for the occurrence of the next clogging.
In the above, although the case of the dust collection part which has three dust collection area | regions has been demonstrated, this invention is not limited to this, It is including that all having a several dust collection area | region are included. Needless to say.
[0029]
In this embodiment, the distance between the detector 7 and the first dust collection region 311 is set to the filter paper feed pitch L. However, this distance can be set to an integral multiple of the filter paper feed pitch L. is there. In this case, a standby-only position is provided between the detector 7 and the first dust collection area 311.
Next, an embodiment of the operation method of the dust monitor according to the present invention will be described using examples.
[0030]
In the following description, the predetermined filter paper feed interval, that is, the predetermined dust collection time is 3 hours, the predetermined standby time is 2 hours, the predetermined measurement time is 1 hour, the first dust collection area 311 is No1, the second dust collection area 312 No.2, the third dust collection area 313 as No3, the filter paper positions in alphabetical order as A, B, C, D, etc. in the transport order, and the time T as in the prior art section. ₁ 1 etc. simply T ₁ Marked as 1 mag.
[0031]
T ₁ 1, T ₂ 1 and T _Three 1 etc. is the filter paper feed time corresponding to the predetermined filter paper feed interval. _Three 1a, T _Four 1a and T _Three 1a etc. is the time of the filter paper feeding corresponding to the predetermined filter paper feeding interval brought forward by shortening some of the predetermined filter paper feeding intervals, and T _Three 1 ′ is the time of feeding the filter paper inserted in the middle of the predetermined filter paper feeding interval.
T ₁ 2, T ₂ 2 and T _Three 2 etc. is the measurement start time corresponding to the predetermined filter paper feed interval. If measurement is started from this time, a predetermined measurement time can be secured until the next filter paper feed. T ₂ 2a, T _Three 2a and T ₂ 2b etc. is the measurement start time corresponding to the predetermined filter paper feed interval brought forward by shortening some of the predetermined filter paper feed intervals, and T ₂ 2 ′ is the measurement start time inserted in the middle of the predetermined filter paper feed interval.
[0032]
T ₁ 3, T ₁ 4 and T ₁ 5 is the time when clogging occurred.
In addition, the same code | symbol is attached | subjected to the time corresponding to a prior art.
[First Example of Driving Method]
The feature of this embodiment is that even when the filter paper is clogged, the measurement is started at the same timing (every predetermined filter paper feed interval) as when the filter paper is not clogged, and the filter paper is conveyed. In the middle of the predetermined filter paper feeding interval, only when the standby time can be made equal to or longer than the predetermined standby time and the measurement time can be the same as the predetermined measurement time, the measurement and the paper feed are added, Except for this, the measurement results are obtained at regular intervals for each predetermined filter paper feed interval.
[0033]
2 and 4 are time charts showing this embodiment. FIG. 2 shows a case where clogging occurs only once. FIG. 4 shows a case where clogging occurs twice during the same predetermined filter paper feeding interval. Show.
First, a case where clogging occurs only once will be described with reference to FIG.
Up to filter paper position A that has passed without clogging, dust is collected in No1 (dust collection area 311). ₁ In the middle of the specified paper feed time interval from 1 (T ₁ In 3), filter paper position B during dust collection at No1 is clogged, and the dust collection area is switched from No1 to No2 (second dust collection area 312), and dust collection at filter paper position C is performed. This time T ₁ 3 is in the middle of the measurement of the filter paper position A, but the filter paper is not transported only by switching the dust collection area, so there is no influence on the measurement of the filter paper position A. The filter paper position A takes a predetermined measurement time. It is measured.
[0034]
The end point of the measurement of the filter paper position A is the filter paper feed time (T ₂ 1), the filter paper is transported by the transport pitch L at this point, the filter paper position B clogged in the middle moves to the detector position and enters a standby state, and the filter paper position C moves to No1. . However, since the dust collection for the predetermined dust collection time is not completed at the filter paper position C, the dust collection area is switched from No2 to No1 so that the dust collection at the filter paper position C can be continued.
[0035]
T ₂ Predetermined filter paper feed interval from 1 (T ₂ 1 to T _Three In 1), the filter paper position B is at time T when a predetermined measurement time can be secured. ₂ The filter paper position C collects dust over the entire time interval. Therefore, the waiting time at the filter paper position B and the dust collection time at the filter paper position C are T ₁ 3 to T ₂ It is longer by the time corresponding to 1.
As described in the section of the prior art, there is no problem that the waiting time becomes long because the measurement accuracy is improved. Further, the dust collection time becomes longer because the required measurement amount is obtained as the number of radiations per unit air amount, so that the measurement result is not affected as it is.
[0036]
As a matter of course, the dust collection time at the clogged filter paper position is shortened, but as described above, the required measurement amount is obtained as the number of radiations per unit air amount, so the measurement result is not changed as it is. There is no impact.
T _Three T also in 1 ₂ Similarly to 1, the filter paper is conveyed by the conveyance pitch L, the filter paper position C moves to the position of the detector 7, and the dust collection starts when the filter paper position D is No1.
[0037]
T _Three In the predetermined filter paper feed time interval from 1, the dust collection at the filter paper position D returns to the initial state, but for the calculation of the measurement result at the filter paper position C, the amount of air passing through the filter paper due to the longer dust collection time is calculated. It is necessary to reflect the increase.
As is clear from the above explanation, a single clogging or intermittent clogging only requires a longer waiting time at the clogged filter paper position and a longer dust collection time at the next filter paper position. No measurement is added in the middle of the predetermined filter paper feed interval.
[0038]
In the above description, the case where the filter paper is clogged only once has been described. However, when the filter paper is clogged once within several consecutive predetermined filter paper feed intervals, the dust collection is caused by the timing of occurrence of clogging. Although the time increases or decreases from the predetermined dust collection time, the standby time is always longer than the predetermined standby time, so the situation is the same as in the case of clogging only once.
[0039]
Next, a case where clogging occurs twice during the same predetermined filter paper feeding interval will be described with reference to FIG.
4 shows T ₁ Predetermined filter paper feed interval from 1 (T ₁ 1 to T ₂ 1) T in the middle ₁ 4 and T ₁ 5 filter paper position B and filter paper position C are clogged. ₁ 4 starts radiation measurement ₁ This is the case before 2.
[0040]
In this case, T ₁ 4 is T ₁ Since it is before 2, T ₁ From 4 the measurement start time T of filter paper position C ₂ Time until 2 (T ₁ 4 to T ₂ Since 2) becomes longer than the predetermined filter paper feed time, the measurement of the filter paper position B can be added before the measurement of the filter paper position C. Therefore, T ₂ Predetermined filter paper feed interval from 1 (T ₂ 1 to T _Three In 1), the filter paper position B and the filter paper position C can be measured while satisfying a predetermined condition. When the measurement of the filter paper position B is completed and the filter paper is transported, the dust collection area is switched from No2 to No1 in order to continue the dust collection at the filter paper position D during dust collection.
[0041]
Unlike the case of FIG. ₁ 4 is T ₁ Assuming the case is after 2, in this case T ₁ 4 to T ₂ 2 becomes shorter than the predetermined filter paper feed time, and the filter paper position B cannot be measured with the standby time longer than the predetermined standby time and the measurement time set to the predetermined measurement time, and the next predetermined filter paper feed interval (T _Three 1 to T _Four Within 1), the radiation measurement of the filter paper position C and the filter paper position D that is not clogged is executed.
[0042]
This is because the predetermined filter paper feeding interval is 3 hours, the predetermined standby time is 2 hours, and the predetermined measurement time is 1 hour. By changing these setting conditions, the position of the clogged filter paper Measurement may not be postponed. With the above time setting, up to three measurements can be performed within the same predetermined filter paper feed interval, so if the clogged filter paper position measurement is postponed, within the next predetermined filter paper feed interval In some cases, three measurements are performed.
[0043]
[Second Embodiment of Driving Method]
The feature of this embodiment is that if the filter paper is clogged twice or more within the same predetermined filter paper feed interval, the filter paper is necessary within the predetermined filter paper feed interval next to the clogged predetermined filter paper feed interval. Accordingly, even if the measurement standby time and measurement time are shortened from the predetermined time, all filter paper positions clogged within the predetermined filter paper feed interval are measured, and the same timing as when the filter paper is not clogged (predetermined The measurement is finished at every filter paper feed interval), and the filter paper is transported. All measurement results of the clogged filter paper position are obtained within the next predetermined filter paper feed interval, and in the middle of the predetermined filter paper feed interval. Except for a part of the measurement result of the clogged filter paper position to be obtained, the measurement result is obtained at a constant interval for every predetermined filter paper feeding interval.
[0044]
Although the time chart of this embodiment is not shown, in FIG. ₁ 4 is T ₁ This embodiment is applicable to cases where it is later than 2 or when there are four dust collection regions and clogging occurs three times within the same predetermined filter paper feed interval.
In the former case, if the predetermined measurement time is secured as the measurement time, the predetermined standby time cannot be ensured as the standby time. In the latter case, the predetermined filter paper feed interval is obtained only by the predetermined measurement time for three times. Therefore, the waiting time at the first clogging position cannot secure the predetermined waiting time, and the second clogging position may not be able to secure the predetermined waiting time. When the standby time is significantly shorter than the predetermined standby time, it may be effective to reduce the standby time by reducing the measurement time from the predetermined measurement time.
[0045]
In this case, in this case, the measurement result is obtained at an early point even if the measurement accuracy is sacrificed to some extent.
An example of the former case will be described with reference to FIG.
T ₁ Predetermined filter paper feed interval from 1 (T ₁ 1 to T ₂ 1) T in the middle ₁ 4 'and T ₁ At 5 ′, filter paper position B and filter paper position C are clogged, and T ₁ 4 'starts radiation measurement ₁ It is later than 2.
[0046]
T ₂ Predetermined filter paper feed interval from 1 (T ₂ 1 to T _Three In 1), when the filter paper position B is measured over a predetermined measurement time after a predetermined waiting time, the measurement end point is T ₂ Since it is later than 2, the measurement time for the filter paper position C cannot be secured for the predetermined measurement time. In order to set the measurement time of the filter paper position C to a predetermined measurement time, T ₂ 2 Since the measurement of the filter paper position B should be completed before, the waiting time of the filter paper position B is set to T from the predetermined waiting time. ₁ 2 to T ₁ It is only necessary to shorten the time corresponding to 4 ', and by this time shortening, the measurement time of both filter paper positions can be maintained as the predetermined measurement time.
[0047]
Of course, it is possible to shorten the measurement time and set the standby time as predetermined, and it is also possible to shorten the measurement time of the filter paper position C, and it is also possible to shorten each. The shortening method may be determined by the number and timing of clogged filter paper positions, and it is most important not to reduce the measurement accuracy as much as possible.
[Third embodiment of operation method]
The feature of this embodiment is that, when the filter paper is clogged, all the clogged filter paper positions are measured over a predetermined measurement time starting when the standby time reaches a predetermined standby time. Therefore, in this embodiment, the measurement timing after the time when the filter paper is clogged deviates from the tamming before the clogging, but the desired measurement accuracy is ensured, and the clogged filter paper position is measured as early as possible. It becomes possible.
[0048]
3 and 5 are time charts showing this embodiment. FIG. 3 shows a case where clogging occurs only once. FIG. 5 shows a case where clogging occurs twice during the same predetermined filter paper feed interval. The clogging occurrence time is the same as in FIGS. 2 and 4.
In the case of FIG. 3, the clogged filter paper position B is at time T when the waiting time reaches the predetermined waiting time. ₂ Since the measurement is immediately performed in 2a over a predetermined measurement time, the measurement end point T of the filter paper position B _Three 1a is the measurement end time T for each predetermined filter paper feed interval _Three Off from 1.
[0049]
In the case of FIG. 5, the filter paper position B that has been clogged before is the time T when the standby time reaches the predetermined standby time. ₂ It is measured over a predetermined measurement time immediately at 2 '. End of measurement T at filter paper position B _Three At 1 ', the filter paper is transported, and the filter paper position C, which is clogged later, comes to the detector position. This time T ₂ In 2b, since the waiting time of the filter paper position C has reached the predetermined waiting time, the measurement of the filter paper position C is started immediately, and T after the predetermined measuring time is reached. _Three Measurement ends in 1b. This time T _Three 1a is also measured at the end of measurement T _Three Off from 1.
[0050]
Thus, according to this embodiment, the measurement end point of the clogged filter paper position (T in FIG. 3) _Three 1a, T in Figure 5 _Three 1b) is the measurement end point (T _Three 1) Depart from. However, since the clogged filter paper position is measured over a predetermined waiting time and a predetermined measurement time, the desired measurement accuracy can be ensured, and the dust collection time at the filter paper position next to the clogged filter paper position is When the measurement of all the clogged filter paper positions is completed, the predetermined dust collection time has been reached. When the clogged filter paper position measurement is completed, the filter paper feed interval returns to the predetermined filter paper feed interval.
[0051]
Depending on the timing of occurrence of clogging, it may be necessary to put a waiting time between the end of the previous measurement and the start of the next measurement.
In the above embodiment, the distance between the detector 7 and the first dust collection region 311 is set to the filter paper feed pitch L, and the predetermined filter paper feed interval (predetermined dust collection time) is a predetermined waiting time and a predetermined measurement time. The operation method in the case where the total is the same as the total has been described. However, when a dedicated stand-by position is provided between the detector 7 and the first dust collection area 311, the filter paper remains in the stand-by dedicated position and the detector position. If you want to make either or both of the specified standby time and the specified measurement time longer than the specified dust collection time, set the number of standby dedicated positions according to that length. It only has to be selected.
[0052]
【The invention's effect】
In the first aspect of the present invention, when the filter paper is clogged until the measurement of the filter paper conveyed to the position of the detector is completed, that is, during the measurement cycle period, the control means drives the switching means. Since the dust collection position can be switched to an uncollected filter paper position, dust collection and standby / measurement can be continued without conveying the filter paper. Therefore, according to the present invention, the measurement including standby is not interrupted by clogging of the filter paper, and the troublesome work of cutting the filter paper and measuring the portion and a separate radiation measuring device are not required. Monitoring of environmental radioactive dust contamination is easy and can be performed without losing time, and further, no investment for another radiation measuring device is required.
[0053]
In the invention of claim 2, since the predetermined pitch, the predetermined interval, and the interval between the dust collection area at the most downstream side of the dust collecting portion and the detector are the same, the dust monitor is configured most compactly. can do.
In the invention of claim 3, when the filter paper is clogged until the measurement of the filter paper conveyed to the position of the detector is completed, the filter paper is switched depending on the clogging of the filter paper. Since it is not transported, measurement including standby is not interrupted by clogging. Also, when transporting the filter paper after the measurement is completed, if the dust collection time has reached the predetermined dust collection time, the dust collection area is not switched, and if the dust collection time has not been reached, the dust collection time is not reached. Since one dust area is switched to the detector side, at that time, if the dust collection time has reached the predetermined dust collection time, new dust collection is started at the next dust collection position, and the predetermined dust collection time is reached. If not, dust collection is continued at the same filter paper position, and a predetermined dust collection time can be secured. Therefore, according to the present invention, the measurement including standby is not interrupted by the clogging of the filter paper as in the prior art, and the troublesome work of cutting the filter paper and measuring the portion thereof or another radiation measurement is performed. Does not require equipment. Furthermore, since it corresponds so that predetermined dust collection time can be ensured as dust collection time, the precision of a measurement can be ensured.
[0054]
According to the invention of claim 4, when a measurement result is obtained at every predetermined filter paper feeding interval and clogged, a predetermined standby time and a predetermined measurement time are secured in the middle of the predetermined filter paper feeding interval after that. Since measurement results are added, the specified measurement accuracy can be ensured, and the time to acquire measurement results can be set in advance, excluding the measurement results added in the middle, and measurement and monitoring work is performed It becomes easy to do.
[0055]
According to the invention of claim 5, as in the invention of claim 4, when the measurement result is obtained every predetermined filter paper feeding interval and clogged, the measurement result is displayed in the middle of the next predetermined filter paper feeding interval. Since it is added, the time to acquire the measurement result can be set in advance, excluding the measurement result added in the middle, the measurement and monitoring work is easy to carry out, and the measurement result of the clogged filter paper position is also fast I can grasp.
[0056]
According to the invention of claim 6, since the predetermined standby time and the predetermined measurement time are ensured even in the measurement of the clogged filter paper position, the predetermined measurement accuracy can be ensured even at the clogged filter paper position, and Since the measurement of the clogged filter paper position is performed without being restricted by the predetermined filter paper feed interval, the measurement result of the clogged filter paper position can be quickly grasped.
[Brief description of the drawings]
FIG. 1 is a conceptual diagram showing the configuration of a dust collecting part of an embodiment of a dust monitor according to the present invention.
FIG. 2 is a time chart showing an example of an operation state of the first embodiment.
FIG. 3 is a time chart showing an example of an operating state of the second embodiment.
FIG. 4 is a time chart showing another example of the operating state of the first embodiment.
FIG. 5 is a time chart showing another example of the operating state of the second embodiment.
FIG. 6 is a conceptual diagram showing the configuration of a dust monitor.
FIG. 7 is a conceptual diagram showing the vicinity of a dust collecting portion of a conventional dust monitor.
FIG. 8 is a time chart showing the operation state of a conventional example.
[Explanation of symbols]
1 Pump 2 Air pipe
3 Dust collector
31, 31a Suction head
311 First dust collection area 312 Second dust collection area
313 3rd dust collection area
32 Solenoid valve
4 Filter paper
41 Filter paper supply unit 42 Filter paper take-up unit
5 Flow meter 6 Dust
7 Detector 8 Measurement / Calculation Processing Unit
9 Display / alarm unit 10 Air
L Filter paper feed pitch
A, B, C, etc.
No1, No2, No3 Dust collection area number
T ₁ 1, T ₂ 1, T _Three 1a, T _Three 1 'etc. Filter paper feed time
T ₁ 2, T ₂ 2, T ₂ 2a, T ₂ 2 'etc. Measurement start time
T ₁ 3, T ₁ 4, T ₁ 5 Filter paper clogging occurrence time

Claims (6)

A dust monitor that monitors radioactive dust present in a measurement target space by collecting dust contained in air supplied from the measurement target space on a filter paper and measuring radiation emitted from the dust. ,
Filter paper transport means for transporting long filter paper at a predetermined pitch;
A dust collecting section having a plurality of dust collecting areas arranged at predetermined intervals in the conveying direction of the filter paper, and switching means for selectively operating any one of the dust collecting areas;
A radiation detector that is arranged downstream of the dust collection unit and measures radiation emitted from the dust collected on the filter paper;
Means for detecting clogged filter paper,
Based on the generation of the clogging detection signal, if the clogging is during the measurement cycle period, the control means for switching the dust collection area,
A dust monitor characterized by comprising: 2. The dust monitor according to claim 1, wherein the predetermined pitch, the predetermined interval, and an interval between the dust collection area at the most downstream side of the dust collecting unit and the radiation detector are the same. The operation method of the dust monitor according to claim 2,
When the clogged filter paper is not in a state of measuring radiation, dust is collected on the filter paper for a predetermined dust collection time in the most downstream dust collection area of the dust collection unit, and waiting for a predetermined time from the end of dust collection After a lapse of time, measure the radiation of dust collected over a predetermined measurement time,
When the filter paper on the dust collection area collecting dust is clogged during the measurement cycle, the switching means switches the dust collection area to collect dust to the adjacent dust collection area, If the filter paper is clogged, repeat the switching to the next dust collection area, do not carry the filter paper until the radiation measurement for a predetermined measurement time is completed,
When transporting the filter paper after the radiation measurement is completed, if the dust collection time at the filter paper position in the dust collection state has reached the predetermined dust collection time, the dust collection area is not switched and the dust collection area is switched. When the time has not reached the predetermined dust collection time, the dust monitor operating method is characterized in that one dust collection region is switched to the radiation detector side. The total time of the predetermined waiting time and the predetermined measurement time is a predetermined filter paper feeding time interval and a predetermined dust collection time,
When the filter paper is clogged, in addition to the radiation measurement at every predetermined filter paper feeding time interval, even if it is inserted in the middle of the predetermined filter paper feeding time interval, the waiting time can be made longer than the predetermined waiting time and measured. When the condition that the time can be the same as the predetermined measurement time is satisfied, the radiation measurement is inserted in the middle of the predetermined filter paper feeding time interval, and the radiation measurement of the clogged filter paper position is performed.
The dust collection time at the filter paper position next to the clogged filter paper position is extended from the predetermined dust collection time by the dust collection time within the predetermined filter paper feeding time interval at which clogging occurred. The operation method of the dust monitor of Claim 3. The total time of the predetermined waiting time and the predetermined measurement time is a predetermined filter paper feeding time interval and a predetermined dust collection time,
If the filter paper becomes clogged, the or not a wait time shorter than the predetermined standby time, the more, by shortening the measurement time than a predetermined measurement time, the radiation measurement of filter paper position clogged feeding one predetermined filter paper Run within a time interval,
The dust collection time at the filter paper position next to the clogged filter paper position is extended from the predetermined dust collection time by the dust collection time within the predetermined filter paper feeding time interval at which clogging occurred. The operation method of the dust monitor of Claim 3. The total time of the predetermined waiting time and the predetermined measurement time is a predetermined filter paper feeding time interval and a predetermined dust collection time,
Perform radiation measurement of the clogged filter paper position over a predetermined measurement time after securing at least a predetermined standby time as a standby time,
For the unclogged filter paper position next to the clogged filter paper position, when the dust collection time has reached the specified dust collection time when measurement of the clogged filter paper position is completed Immediately, if the dust collection time has not reached the specified dust collection time, the specified filter paper feed time when the filter paper is not clogged when the dust collection time has reached the specified dust collection time. 4. The method of operating a dust monitor according to claim 3, wherein the dust collection, standby, and measurement timing at intervals are returned.

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