KR100903800B1 - Calibration method of rain gauges - Google Patents

Abstract

The present invention relates to a method for calibrating the most widely used rainfall meter for accurate observation of rainfall in various water-related industries such as weather forecasting, weather statistics, water statistics, flood forecasts and alerts, reservoir operations.

The present invention enables precise calibration of the rainfall meter by supplying water to which the standard rainfall is calculated to the calibration rainfall meter and comparing it with the rainfall measured by the calibration rainfall meter. By providing various unloadable weights, the sensitivity of the balance can be corrected every time the calibration object is measured, thereby increasing the reliability of calibration accuracy and measuring the rainfall at the time of supplying water to the calibration rainfall meter. By adopting the method of final metering of the water supplied at this time, it is possible to measure several times regardless of the number of times, and it is possible to improve the precision of calibration through such repeated measurement, and to control the pump for water supply. By adjusting the intensity of water supplied to the rainfall meter to be calibrated, It provides a calibration method based on rainfall that can be done.

Rain gauge, calibration method, weight, balance, sensitivity

Description

Calibration method of rain gauges

1 is a front view showing the calibration device of the rainfall meter according to an embodiment of the present invention

Figure 2 is a side view showing the calibration device of the rainfall meter according to an embodiment of the present invention

3 is a flow chart showing a calibration method of the rainfall meter according to an embodiment of the present invention

<Description of the symbols for the main parts of the drawings>

10: balance

20: pump

30: Rain gauge loading / unloading station

40: weight loading / unloading station

50: computer

60: to-be-corrected rainfall meter

70: weight

The present invention relates to a method for calibrating a rainfall meter, and more particularly, to calibrate a calibrated rainfall meter by supplying water for which standard rainfall is calculated to a calibrated rainfall meter and comparing it with the rainfall measured by the calibrated rainfall meter. By implementing a new type of calibration method, the present invention relates to a calibration method of the rainfall system that can accurately calibrate the rainfall system.

In general, the rainfall measurement system is the most widely used rainfall observing device for accurate observation of rainfall in various water-related industries such as weather forecasting, weather statistics, water resource statistics, flood forecasting and warning, and reservoir operation.

The rainfall meter is a weather meter that measures rainfall. The rainfall meter is divided into an indicator rainfall meter and a magnetic rainfall meter. The principle is to measure the depth by receiving rainwater in a container of a constant diameter and measuring the weight or volume. Measure and convert the depth to catchment area and express it in mm.

Although the diameter of the container is generally 20 cm, some specifications use different sizes.

Rain, as well as snow, sleet, hail, dew, etc., all melted in the container is dissolved in water, and the stock (snow, hail, sleet, etc.) after weighing the weight in terms of depth (mm) to measure the precipitation Measure

Continuous rainfall and rainfall intensity are recorded by magnetic rainfall meter.

The magnetic rain gauge has a siphon type, conduction type, etc. and is used in various fields such as weather, disaster prevention, civil engineering, and other research.

Magnetic rainfall meters, which are widely used in various fields, are mostly used only for manual rainfall measurement, although their performance and usability are important.

The most commonly used rainfall meter in Korea and around the world is a tipping bucket type, which is a quantity (0.25, 0.5, 0.1) that the amount of rainfall collected from the rainwater collecting port installed in the upper part is dropped into the tipping bucket installed in the lower part of the rainfall meter. Mm), the tipping bucket is inclined, and the rainfall is measured by measuring a pulse generated by a contact made at a reed switch.

The tipping bucket-type rainfall meter is configured by installing a bucket installed at each lower arm of the rainfall collector, which moves up and down with respect to the central axis like a seesaw, and when the rainwater falling from the collector fills any bucket, the bucket is lowered. It is a rainfall meter that measures the amount of rainfall by counting the number of times the bucket moves up and down by pouring rainwater and repeating the other bucket receiving rainwater.

 The tipping bucket type rainfall meter has good durability, and there is no big problem when measuring rainfall. However, when the rainfall falls or the rainfall increases per hour, the error rate of rainfall is exponentially increased according to the rainfall intensity. Have

For example, several studies have shown that the error rate of the rainfall meter is increased from the actual rainfall as the error rate increases with the rainfall intensity exponentially. There is a need for a observable device, and in particular, there is a problem in that good observation is not properly performed due to an intermittent holding phenomenon of the tipping bucket due to a mechanical structure.

As such, the rainfall meter has an error rate according to the rainfall intensity and has a disadvantage in that precision and accuracy are inferior due to the limitation of the mechanical structure.

Therefore, in order to measure accurate rainfall, the rainfall meter needs periodic calibration. Usually, the rainfall meter is calibrated by comparing with a standard rainfall meter having excellent precision accuracy.

Existing rainfall meter calibration method puts the water measured in the rainfall meter into the standard rainfall measuring cylinder, converts it to rainfall by measuring its volume, and compares it with the rainfall measured in the rainfall meter to check the accuracy of the rainfall meter. After that, the error of the rainfall meter is corrected.

On the other hand, another method to calibrate the rainfall meter is to put water in the automatic pipette and discharge it slowly to the rainfall meter to compare the rainfall measured by the rainfall meter with the rainfall discharged from the automatic pipette to the rainfall meter to check and correct the accuracy of the rainfall meter. I can do it.

The standard rainfall measuring cylinder or automatic pipette is a volume meter for measuring the volume of water. The rainfall meter calibration method requires periodic calibration of the volume meter because the accuracy of the volume meter must be a prerequisite. Done.

Normally, the calibration of the volume system is performed by measuring the mass of water contained in the volume system, and then dividing the measured water mass by the density of water to calculate the volume of water. The buoyancy error should be corrected and the error according to the measured temperature should be corrected by converting the measured temperature to 20 ℃.

As such, the volume meter, such as a standard rain gauge or automatic pipette, is affected by external environmental factors, and thus there is a troublesome problem of periodically calibrating the volume meter, and moreover, such a calibration operation is conventionally performed manually. The hassle is further compounded.

On the other hand, the rainfall meter may generate an error depending on the rainfall intensity. In general, when the rainfall intensity is weak, there is no big error. However, when the rainfall intensity is strong, the error rate increases a lot. Full consideration is required.

However, it is difficult to adjust the strength of the water supplied to the rainfall meter in the conventional general rainfall meter calibration apparatus.

In order to solve this problem, Korean Patent No. 10-0521646 discloses a method of calibrating rainfall meters using mass measurement.

However, in the case of the above-mentioned patent, the rainfall meter and the load of the water to be calibrated are always applied to the balance while the calibration is being performed. Precise calibration is not possible.

In addition, since only one calibration of sensitivity is performed using a single weight, it is vulnerable to correcting the sensitivity of various factors influencing the calibration, thereby lowering the reliability of calibration accuracy.

In addition, it is necessary to repeat the measurement in order to increase the accuracy of the calibration. The water is measured by supplying water to the calibrated rainfall meter once and weighing the water. There is a limit that cannot be done.

Accordingly, the present invention has been made in view of this point, by supplying the water to the standard rainfall to be calibrated, and by calibrating the to-be-corrected rainfall meter in a manner that compares with the rainfall measured by the calibration rainfall meter, It is an object of the present invention to provide a method of correcting the rainfall meter, which enables accurate calibration of the rainfall meter.

In addition, another object of the present invention is to provide a method of calibrating a rainfall meter that can be equipped with a variety of weights that can be loaded and unloaded to correct the sensitivity of the balance at each measurement of the calibration object, thereby increasing the reliability of calibration accuracy It is.

In addition, another object of the present invention is to measure the rainfall at the time of supplying the water to be calibrated rainfall meter, by adopting a method of finally weighing the water supplied at this time, it is possible to measure any number of times In addition, it is to provide a rainfall meter calibration method that can improve the accuracy of the calibration through such repeated measurement.

In addition, another object of the present invention is to adjust the intensity of the water supplied to the rainfall meter to be calibrated through the control of the pump for the supply of water, the calibration method of the rainfall system that can perform a calibration operation considering various environmental conditions To provide.

The calibration method of the rainfall meter according to an embodiment of the present invention for achieving the above object is a step 1 of measuring the mass of the rainfall meter to be calibrated by loading the calibration rainfall meter in the balance, and corresponds to the mass of the rainfall meter to be calibrated Load the weight to the balance to measure the mass of the weight, and supplying a predetermined amount of water to the calibration rainfall meter while measuring the number of conduction of the bucket at this time to measure the rainfall with the calibration rainfall meter, 3 steps of measuring the mass of the calibration rainfall meter and the water by loading the calibration rainfall meter including the balance, and loading the weight corresponding to the mass of the calibration rainfall meter including water into the balance to measure the mass of the weight And the standard rainfall supplied to the calibrated rainfall meter by analyzing the mass change measured in steps 1 to 4 above. Compare the amount of rainfall, as measured rainfall to be calibrated to step characterized by comprising a fifth step of calculating the uncertainty of rainfall to be calibrated based.

In addition, after the step 2, the mass and the sensitivity weight are measured by loading the weight and the sensitivity weight on the balance, and the mass of the rainfall rainfall meter and the sensitivity weight is subsequently loaded by loading the calibration rainfall meter and the sensitivity weight on the balance. Characterized in that further performing the step of measuring.

In addition, the three steps may further include a step of varying the pumping amount of the pump when water is supplied to the to-be-corrected rainfall meter to correct the rainfall measurement function of the to-be-corrected rainfall meter at various rainfall intensities.

Further, after the step 4, the weight and sensitivity weight are loaded into the balance to measure the mass of the weight and the sensitivity weight. Subsequently, the corrected rainfall meter and water containing the water are loaded into the balance and the blood containing water is loaded. The method further comprises the step of measuring the mass of the calibration rainfall meter and the sensitivity weight.

In addition, in step 5, water temperature, air temperature / humidity / barometric pressure, and weight mass data, which are factors influencing the uncertainty of the corrected rainfall meter, are further received and analyzed when calculating the uncertainty of the corrected rainfall meter. It is characterized in that it further comprises a process of reflecting and calculating.

The calibration method of the rainfall meter provided in the present invention adopts a method of directly measuring a calibrated rainfall meter or a calibrated rainfall meter including water, and at the time of calibration is necessary, only a balance is required. By loading in the mass, measuring the mass and leaving the balance unloaded most of the time, the load on the balance can be reduced as much as possible, resulting in more accurate measurements with respect to the measurement using the balance.

In addition, one of the other features provided by the present invention is that the sensitivity of the measured value of the balance can be corrected every time the measurement of the object measured through the balance by using the weight of the various mass to further improve the accuracy of the calibration result It can be increased.

In addition, one of the other features provided by the invention is the provision of means for loading or unloading several weights, which allows calibration of rainfall spectrometers of various specifications within the range of capacity of the balance. Is the point.

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

1 is a front view showing a calibration device of a rainfall system according to an embodiment of the present invention, Figure 2 is a side view showing a calibration device of a rainfall system according to an embodiment of the present invention.

As shown in Figure 1 and 2, the apparatus for the calibration of the rainfall meter is a balance 10 for measuring the rainfall meter, the weight, etc., the pump 20 for supplying water to the rainfall meter to be calibrated , A rainfall meter loading / unloading station 30 for loading / unloading a rainfall rainfall meter to balance, a weight loading / unloading station 40 for loading / unloading weights into the balance to measure the sensitivity of the balance. A computer (50) for analyzing the balance and the data from the calibrated rainfall meter, and then calculating the uncertainty of the calibrated rainfall meter by comparing the standard rainfall supplied from the pump to the calibrated rainfall meter and the measured rainfall of the calibrated rainfall meter. And the like.

Here, the computer includes a keyboard, a monitor, a printer, and the like, in which the computer controls a calibration apparatus or analyzes and calculates data by a predetermined program, rather than the concept of a PC. Means means.

It may also be electrically connected to the computer side in order to receive data from each component of the device, for example balance or various sensors, and to control various actuators including pumps and the like.

In addition, the balance is a conventional scale, and includes a balance wire of a certain length down, the upper part of the balance can be measured rainfall meter and the weight can be metered through the balance wire.

In addition, the rainfall meter loading / unloading station is installed at one side of the balance, and loads or unloads the rainfall meter to be loaded on the balance while lifting or lowering the rainfall meter to be calibrated.

In addition, the pump is installed in a form supported on the frame structure of the device, the pipe extending from the pump is installed up to the upper part of the rain gauge to be calibrated so that water can be supplied to the rain gauge to be calibrated through the pipe.

In particular, the pump at this time it is preferable to use a high-pressure precision metering pump that can vary the pumping amount to calibrate the rainfall measurement function of the rainfall meter to be calibrated in the rainfall intensity of various environments.

In addition, the upper space of the apparatus, for example, the surrounding space to which the rainfall meter to be calibrated, the rainfall meter loading / unloading station, etc., can be tested in a condition where the surrounding environment such as temperature / humidity / pressure is constant. It is desirable to form a closed space in which the constant temperature and the humidity are maintained.

In a preferred embodiment of the present invention, a temperature sensor, a humidity sensor, a barometric pressure sensor that can sense temperature, humidity, air pressure, etc. in order to reflect the factors affecting the uncertainty of the calibrated galvanometer in the sealed space. Etc. can be provided, and the value sensed from these sensors can be provided to the computer to be used in calculating the uncertainty of the corrected rainfall meter.

Here, the to-be-corrected rainfall meter is a summation of the rainfall meter that is commonly used, and the tipping bucket type rainfall meter will be described in an embodiment of the present invention.

Usually the rainfall meter to be calibrated is provided with a counter (sensor), by which the number of conduction of the conduction bucket can be measured at the time of water supply, the measurement can be provided to the computer.

In other words, it is possible to know the value of the rainfall measured by the calibration rainfall meter.

Hereinafter, a process of calibrating the rainfall meter through the calibration device of the rainfall meter configured as described above will be described in detail.

3 is a flowchart illustrating a method of calibrating a rainfall system according to an exemplary embodiment of the present invention.

Stage 1

First, in order to set the measurement environment of the to-be-corrected rainfall meter, the preparation steps are completed, such as setting the number of falling of the to-be-corrected rainfall meter through a computer to determine the rainfall to be measured by the to-be-corrected rainfall meter.

After setting the measurement environment in this way, using the rainfall meter loading / unloading station to load the calibration rainfall meter to the balance and measure the mass (T) of the rainfall meter to be calibrated (S100).

Tier 2

Firstly, the corrected rainfall meter is unloaded using the rainfall meter loading / unloading station.

Subsequently, a weight loading / unloading station is used to load the weight corresponding to the mass of the calibrated rainfall meter (for example, 5 kg of weight for a 5 kg calibrated rainfall meter) to the balance and the mass of the weight. (S) is measured (S110).

After completion of the above steps 1 and 2, supply a predetermined amount of water to the rainfall meter to be calibrated (S140), by measuring the number of falling of the bucket at this time to measure the rainfall with the calibration rain gauge.

The water supply process is performed until the amount of water corresponding to the set number of conduction of the bucket (for example, 20 times) is supplied (S150).

Tier 3

The rainfall meter used for calibration in the present invention is a rainfall meter having a bucket having a diameter of 20 cm, the amount of water supplied to the calibrated rainfall meter can be approximately 628g when the number of conduction of the bucket is set to 20 times.

After the water supply to the calibrated rainfall meter is completed, the calibration rainfall meter including water is loaded into the balance using the rainfall meter loading / unloading station and the mass (T) of the calibrated rainfall meter is measured. (S160).

Here, the step 3 is a process of measuring the water temperature supplied to the to-be-corrected rainfall meter by using a conventional water temperature sensor in order to reflect the water temperature affecting the uncertainty of the to-be-corrected rainfall meter at the time of uncertainty calculation, and then providing it to the computer. In order to reflect the atmospheric temperature, humidity, and air pressure in the calculation of the uncertainty, the process of measuring the surrounding environment to which the rainfall meter to be calibrated is measured by a normal temperature / humidity / barometric pressure sensor, and providing the same to a computer. It may include.

4 steps

First, the rainfall corrected rainfall meter including water is unloaded using the rainfall meter loading / unloading station.

Subsequently, the weight loading / unloading station is used to load the weight corresponding to the mass of the water and the calibrated rainfall meter (e.g. 500 g of weight with 5 kg of weight and water supplied) into the balance and the mass of the weight (S) is measured (S170).

5 steps

Analyze the mass change measured in steps 1 to 4 to calculate the standard rainfall supplied to the calibrated rainfall meter, and compare the calculated standard rainfall with the rainfall measured by the bucket conduction frequency of the calibrated rainfall meter. The uncertainty of the calibrated rainfall meter is calculated (S200).

In addition, the fifth step includes the process of correcting the sensitivity of the balance by receiving the weight mass value and calculating the standard rainfall and the measured rainfall of the rainfall meter to be calibrated.

On the other hand, the method of measuring the rainfall meter according to an embodiment of the present invention provides a method for measuring the mass more precisely while correcting the sensitivity of the balance using the double substitution method.

To this end, after the step 2, the weights and sensitivity weights are loaded on the balance to measure the masses of the weights and sensitivity weights, and the loads of the corrected rainfall meter and the sensitivity weights are loaded on the balance to calculate the masses of the corrected rainfall meter and the sensitivity weights. The measuring step can be further performed.

For example, a weight loading / unloading station is used to load a weight (5 kg weight) and a sensitivity weight (200 g) in two stages in a balance, and to measure the mass (S + Δ) of the weight and the sensitivity weight (S120). ), Then use the rainfall meter loading / unloading station and the weight loading / unloading station, respectively, to load the corrected rainfall meter and sensitivity weight (200g) into the balance, and the mass of the corrected rainfall meter and sensitivity weight (T + Δ). ) Is measured (S130).

In addition, after step 4, the weight and sensitivity weight are loaded on the balance to measure the mass of the weight and the sensitivity weight, and the calibration rainfall rainfall meter including water and the calibration weight including water by loading the sensitivity weight on balance The step of measuring the mass of the system and the sensitivity weight may be further performed.

For example, the weight loading / unloading station is used to load the weight (5 kg + 500 g) and the sensitivity weight (200 g) into the balance in four stages, and to measure the mass (S + Δ) of the weight and sensitivity weight. (S180), and then using the rainfall meter loading / unloading station and the weight loading / unloading station, respectively, the balance of the rainfall meter and the weight of water (200 g) to be loaded in the balance and the calibration rainfall including water The mass (T + Δ) of the system and the sensitivity derivative is measured (S190).

In this way, the balance values measured using the sensitivity weights after steps 2 and 4 and the weight mass values of the sensitivity weights at this time may be provided to the computer and used to calculate the uncertainty of the calibration rain gauge.

Here, the method of calculating the standard rainfall, the method of calculating the uncertainty by comparing the standard rainfall with the measured rainfall, the method of reflecting the measured value measured in the uncertainty calculation to correct the sensitivity of the balance, and the like are commonly known in the art. The method is not particularly limited and may be adopted.

In addition, the present invention can provide a measurement method that reflects the factors affecting the uncertainty of the rainfall meter to be calibrated.

For example, in step 5, when calculating the uncertainty of the calibrated rainfall meter, data such as water temperature, air temperature / humidity / barometric pressure, and weight mass, which are factors influencing the uncertainty of the calibrated rainfall meter, are further analyzed and analyzed. This can then be reflected in the uncertainty calculation.

In addition, the present invention can provide a measurement method for inspecting the rainfall measurement function of the rainfall meter to be calibrated at various rainfall intensities.

For example, in the third step, by varying the pumping amount of the pump when water is supplied to the rainfall meter to be calibrated, the rainfall measurement function of the rainfall meter may be calibrated at various rainfall intensities.

As described above, the rainfall meter calibration method newly implemented in the present invention can reduce the load on the balance, apply various weights, and repeatedly measure the rainfall meter such as repeatedly measuring it several times. This is possible and has the effect of increasing the reliability of the calibration precision.

In addition, since the intensity of the water supplied to the rainfall meter to be calibrated can be adjusted, the function of the rainfall meter can be corrected in various environments.

Claims (5)

In the calibration method of the rainfall meter, A step of measuring the mass of the to-be-corrected rainfall meter by loading the to-be-corrected rainfall meter into the balance; Measuring the mass of the weight by loading a weight corresponding to the mass of the rainfall rainfall meter to the balance; While supplying a predetermined amount of water to the to-be-corrected rainfall meter, the fall number of the bucket is measured to measure the rainfall with the to-be-corrected rainfall meter, while the to-be-corrected rainfall meter including water is loaded on the balance and Three steps of measuring the mass of water; 4 steps of measuring the mass of the weight by loading the weight corresponding to the mass of the rainfall rainfall meter to be calibrated in the balance; Analyze the mass rainfall measured in steps 1 to 4 to calculate the standard rainfall supplied to the calibrated rainfall meter, and compare the calculated standard rainfall with the rainfall measured by the calibrated rainfall meter to determine the uncertainty of the calibrated rainfall meter. 5 steps to calculate; Calibration method of the rainfall system, characterized in that comprises a. The method of claim 1, wherein after the step 2, the weights and sensitivity weights are loaded into a balance to measure the masses of the weights and sensitivity weights. The method of claim 1, further comprising the step of measuring the mass of the weight. The method of claim 1, wherein the step 3 further comprises the step of varying the pumping amount of the pump when supplying the water to be calibrated rainfall meter to correct the rainfall measurement function of the calibrated rainfall meter at various rainfall intensity How to calibrate rainfall meter The method of claim 1, wherein after the step 4, the weight and sensitivity weights are loaded into a balance to measure masses of the weights and sensitivity weights. The method of claim 1, further comprising the step of measuring the mass of the calibration rainfall rainfall meter and the sensitivity weight. The method of claim 1, wherein the step 5 further receives and analyzes water temperature, atmospheric temperature / humidity, barometric pressure, and weight mass data which are factors that affect the uncertainty of the corrected rainfall meter when calculating the uncertainty of the corrected rainfall meter. The method of claim 1, further comprising the step of calculating in reflection of the uncertainty calculation.

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