KR100569719B1 - High Reliability Non Contact Rainfall Gauge Equipment - Google Patents

Abstract

The present invention relates to a high-reliability solid-state rainwater measuring device that significantly improves and supplements the shortcomings of the existing tipping bucket type conductivity rain gauge to more accurately measure rainfall, which plays the most important role in meteorological observation. A superior squirrel 11 of a shape; A fixed quantity discharge means (13) installed in the discharge pipe (11a) at the lower end of the rainwater outlet (11) to maintain a constant amount of water discharged to the discharge pipe (11a) while moving up and down according to the excessive rainfall; A drip tray 14 for measuring rainfall discharged from the discharge pipe 11a; Optical interrupt elements (15a, 15b, 15c) which are solid-state elements which generate pulses when the drip tray 14 is conducted; Drains (16a, 16b) for draining the water accumulated in the drip tray 14 after the rainfall measurement; and comprises a contactless optical interrupt device (15a, 15b, 15c) in the center and left, When the drip tray 14 is inclined to one side due to rainfall, the left contactless element 15a and the left and right contactless optical interrupt elements 15b or 15c of the drip tray 14 are respectively installed on both right sides. At the same time, it is recognized as a normal signal only when ON or OFF, so that a certain amount of rainfall is measured even during heavy rains, so that measurement errors due to heavy rains and measurement errors due to chattering do not occur. More accurate and reliable rainfall measurements were made possible.

Rainfall measurement, rain gauge, rainfall meter, contactless rainfall measuring device, multiple contactless rainfall measurement

Description

High Reliability Solid State Rain Gauge {High Reliability Non Contact Rainfall Gauge Equipment}

1 is a perspective view showing the structure of a conventional tipping bucket type conductivity type rain gauge,

2 is a schematic structural diagram of a conductivity type rain gauge according to the present invention;

3 is an enlarged view of a portion A of FIG. 2;

4 is an operation principle diagram of a contactless rain gauge according to the present invention.

* Explanation of symbols for main parts of the drawings

11: excellent water outlet 11a: discharge pipe

12: rainfall detection means 13: quantitative discharge means

13a: buoy 13b: guide post

13c: needle valve 14: drip tray

15a, 15b, 15c: solid state optical interrupt device

16a, 16b: drain

The present invention relates to a high-reliability solid-state rainwater measuring device that significantly improves and supplements the shortcomings of the existing tipping bucket-type rain gauge in order to more accurately measure rainfall, which plays the most important role in meteorological observations. The structure of the rain gauge is changed to increase the reliability and the one or multiple contactless optical interrupt devices are used.

In order to accurately measure the most important rainfall for hydrological observation, it is necessary to use a high precision, high reliability rain gauge, but in reality, the existing conductivity type rain gauge, which is used the most in the world, has some disadvantages in terms of precision and reliability.

In general, there are three types of measuring instruments used for quality observation, tilting or tipping bucket type, weighing type and float type.

Among them, tipping-bucket rain recorder is an observation machine that automatically records rainfall continuously and is the most used weather observation instrument in Korea and the world.

The conduction type magnetic rain gauge is widely used in automatic meteorological observation system because of its relatively simple device, remote measurement and digitization of observation signal.

 The conductivity type magnetic rain gauge is a telemetry rain gauge, and its structure is a rainwater catch (1; funnel shape having a diameter of 200 mm), which collects rainfall and sends it down to a tipping bucket as shown in FIG. (2) Tipping Bucket that falls / tilts to one side when it receives a certain amount (weight) of rainfall falling down, and when the Tipping Bucket (2) is tilted / tilted A magnetic reed switch (3) generating a pulse) and a drain hole (4) through which measured water flows.

The operation principle is to collect the rainfall in the rainwater downhole 1 having a diameter of 200 mm having a funnel shape, and the triangular drip tray 2 through the discharge pipe 1a formed at the bottom of the rainfall downhole 1. When the water reaches a certain amount (0.1mm, 0.5mm, 1mm), the drip tray 2 is inverted about the rotation axis by the weight of the water, and the tipping bucket is one of the left and right symmetry. It is a pair (two), and the magnetic reed switch (3) is operated while being inverted alternately to generate one pulse signal each time.

In practice, a data logger or RTU is used to store or transmit measured rainfall values, and each time a pulse occurs in the rain gauge, it depends on the size of the tipping bucket. The measured rainwater value is stored or transmitted remotely.

The disadvantage of the conduction rain gauge is that it has a measurement error of less than 5% for low rainfall measurements, but when the rainfall per hour exceeds 50mm to 60mm, the error increases significantly, and the mechanical contact structure makes chattering The occurrence of measurement error due to (Chattering) phenomenon has been pointed out as the biggest disadvantage.

As described above, the biggest disadvantage of the conventional conductivity type rain gauge is that the measurement error is increased during heavy rain or heavy rain, and errors occur due to mechanical contact. Therefore, improvement is considered to be the most urgent and important. In order to solve the same problem, the object of the present invention is to overcome the problems of the existing conductivity type rain gauge and to measure the accurate rainfall during heavy rain, so that the measurement error due to heavy rain and measurement error occurs due to chattering phenomenon. This is to prevent more accurate and reliable rainfall measurement.

In order to achieve the above object, the present invention has a groove in the center of the rainwater outlet to maintain a constant amount of rainfall falling to the tipping bucket through the sewer to reduce the measurement error during heavy rain and heavy rain A non-contact device using a conventional interrupted magnetic reed switch that generates a pulse while the tipping bucket is conducted / tilted by installing a fixed quantity discharge means composed of buoys to prevent the measurement error caused by the heavy rain. In order to prevent the occurrence of measurement error due to chattering phenomenon, it is necessary to configure three contactless elements in multiple to prevent the measurement error from happening, and to install rainfall detection means in rainwater outlets. · Provides a high reliability solid state rain gauge to reduce power consumption during rain and rain.

Hereinafter, with reference to the accompanying drawings, preferred embodiments that do not limit the present invention will be described in detail.

Figure 2 schematically shows the structure of a high reliability solid-state rainwater measuring device according to the present invention, the present invention is a funnel-shaped rain gutter 11, collecting the rainfall, the inside of the rain gutter 11 Quantities for maintaining the amount of water discharged to the discharge pipe (11a) while being installed in the rain detection means (12) to be installed, the discharge pipe (11a) at the bottom of the rainwater outlet 11, moving up and down according to the excessive rainfall Discharge means 13, drip tray 14 for measuring rainfall, contactless optical interrupt devices 15a, 15b and 15c for generating pulses when the drip tray 14 is conducted, drip tray 14 after rainfall measurement It comprises a drain (16a, 16b) for draining the water accumulated in the.

The rainfall detection means 12 is a conventional raindrop detection means, which is installed in parallel with a pair of metal plates, such as conductive copper in minute intervals so that the electrical conduction (ON) between both metal plates only when rainfall (moisture) occurs. In case of rain, the power supply to the contactless devices 15a, 15b, and 15c is cut off to prevent unnecessary power consumption, thereby minimizing the power consumption during rain and rain.

As shown in the enlarged view of FIG. 3, the metered discharge means 13 extends at the lower end of the buoy 13a and the buoy 13a serving as a float in the inside of the excellent sewer 11. A guide post 13b which is formed and is inserted into the discharge pipe 11a formed at the lower end of the rain squirt 11 so that the buoy 13a is always located at the center of the rain squid 11, and the guide post 13b. It consists of a needle valve (13c) formed in the shape of an inverted triangular pyramid inside the control of the flow rate so that a constant amount of water can be discharged through the discharge pipe (11a) at all times despite the amount of rainfall that is filled in the rain gutter 11 Done.

The principle of the quantitative discharge valve of the float method is apparent to those skilled in the art to which the present invention belongs, so a detailed description thereof will be omitted.

4 illustrates the principle of the solid state rainwater measuring device according to the present invention. In the drawing, three solid state optical interrupt devices 15a, 15b, and 15c are installed at the center, left and right sides of the drip tray 14, respectively. (See case # 1), and when the drip tray 14 is tilted to one side due to rainfall (in case # 2 and / or case # 3), the contactless optical interrupt element 15a and drip tray in the center ( If the left and right contactless optical interrupt devices 15b or 15c of 14) are configured as an AND circuit so that they can be recognized as normal signals only when they are ON or OFF at the same time, they are only contacted at the center. In case of a sudden / rapid tilting phenomenon in the existing rain gauge, the measurement error caused by chattering of the contact can be solved.

The rainwater measuring device of the present invention configured as described above is provided with a quantitative discharge means 13 by a float method within the rainwater outlet 11, and when the rainfall per hour in the conventional conductivity type rain gauge exceeds 50mm to 60mm Due to the water pressure filled in the water port 11, a large amount of rainfall is discharged to the drip tray at the same time to solve the problem that the accurate flow rate could not be measured, thereby minimizing the measurement error, and reducing the mechanical contact structure such as the magnetic reed switch. By replacing it with a contactless non-contact optical interrupt device and configuring it in multiple, more accurate rainfall without occurrence of measurement error due to chattering phenomenon and wind (movement of tipping bucket by wind coming in through the rainfall outlet at the bottom of rain gauge) Can be measured.

As described above, the present invention completely improves / modifies the shortcomings of the conventional conductivity type rain gauge, so that a constant amount of rainfall always falls on the drip tray by the quantitative discharge means, even during heavy rains, and measurement errors caused by heavy rain and heavy rain. It is possible to improve the accuracy of reduction and rainfall measurement, and to configure multiple contactless optical interrupt devices and recognize them as rain only when two contacts are pulsed at the same time. Measurement errors and errors due to the tipping bucket) due to the wind, etc. can be minimized. Rainfall detection means can be installed in rainwater outlets to prevent the presence of rainfall and unnecessary power consumption. The drain pipe at the bottom of the rainwater scepter is blocked so that small insects It has an effect such as to eliminate the clogging of the discharge pipe.

Claims (4)

delete delete delete It is installed in the funnel-shaped rainwater sewer 11 collecting rainwater and the discharge pipe 11a at the bottom of this rainwater sewer 11 so as to move up and down according to the excessive amount of rainfall to discharge the amount of water discharged to the discharge pipe 11a. When the fixed amount discharge means 13 to maintain a constant, the rainfall falling from the rain squirrel 11, a predetermined amount of water is transferred to one side and the drip tray 14 for measuring the rain, and the drip tray 14 is conducted It comprises a contactless optical interrupt device (15a, 15b, 15c) for generating a pulse at the time, and drains (16a, 16b) for draining water accumulated in the drip tray 14 after the rainfall measurement, The quantitative discharge means 13 is a ball-shaped buoy (13a) to act as a float in the inside of the excellent squid (11), and is formed at the lower end of the buoy 13a and the lower squid (11) A guide post 13b inserted into the discharge pipe 11a so that the buoy 13a is always located at the center of the rainwater outlet 11, and a needle valve formed in an inverted triangular shape inside the guide post 13b. 13c); The contactless optical interrupt devices 15a, 15b, and 15c are installed at the center, left and right sides of the drip tray 14, respectively, and when the drip tray 14 is inclined to one side due to rainfall, High reliability, characterized in that it is recognized as a normal signal only when the contactless optical interrupt devices 15b or 15c of the left and right sides of the 15 and the drip tray 14 are simultaneously turned on or off at the same time. Solid state rain gauge.

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