KR101871894B1 - Conductive type weighted precipitation measuring device - Google Patents

Abstract

The present invention provides a conductive type weighted precipitation measuring device which can reduce an error with respect to precipitation measurement compared to the precipitation measurement in accordance with free fall by measuring precipitation in real time as a weight of the precipitation is measured to be converted to the precipitation. According to the present invention, a weight sensor is installed in a lower portion of a water collection container to measure a weight of precipitation of water collected in the water collection container, and when the measured weight of the precipitation reaches a predetermined precipitation weight, the water collected in the water collection container is forcibly discharged to reduce an error in accordance with precipitation measurement.

Description

[0001] The present invention relates to a conductive type weighted precipitation measuring device,

More particularly, the present invention relates to an apparatus for measuring a weighted precipitation amount, and more particularly, to measure the weight of precipitation and convert it into precipitation to measure real-time precipitation, Type rainfall amount measuring apparatus capable of reducing the amount of rainfall.

In particular, a weight sensor is installed at the lower part of the collecting device to measure the weight of the collected water in the collecting device, and when the weight of the measured water reaches the set weight of the water, To thereby reduce the error of the weight type rainfall amount measuring apparatus.

Precipitation refers to the amount of precipitation (rainfall) and the amount of snow (snowfall) falling on the surface in the atmosphere, collectively referred to as precipitation, and the observation of precipitation means collecting precipitation and converting the amount to height.

In general, a rain gauge is an instrument for measuring rainfall phenomenon (rain, snow, etc.) among meteorological phenomena occurring in the atmosphere, and usually receives rainwater in a cylinder having a diameter of 20 cm and measures its depth and displays it in mm.

There are various types of rain gauges for measuring rainfall such as low water type cylindrical rain gauges, low water type magnetic rain gauges, conduction type gauges, weight type gauges, load cell type gauges and the like. It is classified by volume method. Low water type cylindrical rain gauges and low water type self gauges are methods by volumetric measurement. Conductive gauges, weigh gauges, and load cell gaugers belong to the weight measurement method.

The conduction type rain gauge calculates the amount of precipitation using the number of conduction times of the conduction cup measured through the water inlet, and the weight type rain gauge measures the weight of the introduced water through the water outlet to calculate the amount of precipitation will be.

As shown in Fig. 1, the prior art patent relating to the above-mentioned conduction type rain gauge includes a collecting device for collecting the rain water and a water collecting device for collecting the rain water, A rainfall sensor installed on the lower side of the flow rate mitigating port for sensing water; a conduit cup inclined to one side of the rotation axis by the weight of the water dropped from the flow rate mitigating port; A drain switch for discharging a high-level object to the conductive cup, and a control unit for counting pulses generated from the reed switch to measure the amount of precipitation, Receives the signal, outputs the solenoid valve driving signal, receives the driving cup driving signal from the outside, And a control unit for outputting an electromagnet driving signal by receiving a reed switch driving signal from the outside and outputting an electromagnet driving signal; A solenoid valve installed on a drain pipe for supplying precipitation to supply the precipitation test water under the control of the control unit; An electromagnet driven by control of the control unit to temporarily turn on the reed switch; The control unit transmits a measured rainfall amount counting signal to a remote location and receives a rainfall supply check command, a conduction cup check command, and a reed switch check command from a remote location to transmit a solenoid valve drive signal, a stepping motor drive signal, A data logger; A precipitation supply check command, a conduction cup check command, and a reed switch check command to check the precipitation amount received from the data logger and periodically check the precipitation amount in connection with the data logger, transmit the data to the data logger, A precipitation measurement management server for receiving a response signal for checking the rainfall gauge received from the logger and displaying the processed rainfall gauge in the rainfall gauge and storing the signal received from the data logger through the control unit; .

As shown in FIG. 2, the rainfall meter having the foreign object removing function of Patent Document 2 has an actuator installed at one side of the rainfall gauge, and an actuator connected to the actuator, moved in the forward and backward direction, And a controller for controlling operation of the actuator, wherein the foreign matter removing unit removes foreign substances accumulated in the freshener of the rainfall gauge while moving in the fore-and-aft direction by the actuator, The sensor unit is connected to the control unit, and the control unit operates the actuator when the foreign matter accumulation state of the flue gas is transferred from the sensor unit. The foreign matter removing unit includes a flexible material extending in one direction, , And the foreign matter removing unit Wherein the foreign matter removing unit is disposed in the one side of the flushing passage, and the foreign matter removing unit is disposed in the one side of the flushing passage, Wherein the controller is configured to operate the actuator at a predetermined time interval or the control unit may control the actuator to operate the actuator in a predetermined time interval, And automatically activates the actuator when a foreign matter accumulation state is detected from the part.

The rainfall gauge of Patent Document 1 and the rainfall gauge of Patent Document 2 are automatically inclined to one side due to the weight of water dropped when the conduction cup is inclined toward one side about the rotation axis, Respectively.

Patent Document 1: Korean Patent Registration No. 10-1530674 entitled " Precipitation Monitoring System Having Precipitation Monitoring Function and Precipitation Monitoring Method Through Rainfall Detection "(Registered on June 16, 2015) Patent Document 2: Korean Registered Patent Publication No. 10-1503920 "Rainfall amount meter with foreign object removing function" (registered on March 12, 2015)

Therefore, the present invention has been proposed in order to solve such a conventional problem. By measuring the weight of precipitation and measuring the real-time precipitation by converting it into precipitation, it is possible to reduce the error in the precipitation measurement The present invention provides a new type of conductive type weighted precipitation measuring device.

In particular, a weight sensor is installed at the lower part of the collecting device to measure the weight of the collected water in the collecting device, and when the weight of the measured water reaches the set weight of the water, The present invention provides a new type of convex type weighted precipitation measuring device capable of reducing an error caused by the weight of the convection type.

According to an aspect of the present invention for achieving the above-mentioned object, there is provided an image forming apparatus comprising: a base fixed to a ground; A cylindrical housing 30 fixed to the upper portion of the base 20 and having an internal space 31 and having an inlet 32 through which precipitation flows in the upper portion; A water outlet 40 which is formed in the shape of a funnel and is located above the internal space 31 of the housing 30 and collects the rainwater flowing through the inlet 32 of the housing 30; A collecting device 50 disposed below the water receiving port 40 for collecting the water discharged through the water receiving port 40 and discharging the precipitation to both sides through a seesaw motion about the rotating shaft 51; A discharge port 60 positioned at both sides of the collecting container 50 at an upper portion of the base 20 and discharging the precipitation water discharged by the seizure movement of the collecting container 50 to the outside; A weight sensor 70 coupled to a lower portion of the collecting container 50 for measuring the weight of the collected water in the collecting container 50; A controller 80 for receiving the weight of the measured precipitation through the weight sensor 70 and rotating the collector 50 about the rotation axis; The control unit 80 receives the weight of the precipitation through the control unit 80 and calculates the amount of precipitation by converting the weight of the received precipitation into the amount of precipitation. When the weight of the measured precipitation reaches the weight of the set precipitation, the collector 50 controls the seesaw movement to discharge the precipitation.

In the conduction type weighted precipitation measuring apparatus according to the present invention, the control unit 80 receives the weight of the measured precipitation from the weight sensor 70 and determines whether the weight of the transmitted precipitation reaches the set precipitation weight A data collecting unit 81 for collecting data; When the data collecting unit 81 determines that the weight of the precipitation measured by the weight sensor 70 has reached the set weight of precipitation, the collecting unit 50 is rotated around the rotation shaft 51, And a driving unit (82) for forced drainage.

In the conduction type weighted precipitation measuring apparatus according to the present invention, the management server 90 receives the weight of the precipitation from the data collection unit 81, converts the weight of the received precipitation into the amount of precipitation, And real-time precipitation is calculated by summing the precipitation amounts.

As described above, according to the conduction type weighted precipitation measuring apparatus of the present invention, by measuring the weight of precipitation and converting it into precipitation, real-time precipitation can be measured, thereby reducing errors in precipitation measurement There is an effect that can be.

In particular, a weight sensor is installed at the lower part of the collecting device to measure the weight of the collected water in the collecting device, and when the weight of the measured water reaches the set weight of the water, So that it is possible to reduce the error according to the size of the image.

1 and 2 are views for explaining a conventional rainfall gauge,
FIG. 3 is a perspective view showing a conduction type weighted precipitation measuring apparatus according to a preferred embodiment of the present invention,
FIG. 4 is a front view of a conduction type weighted precipitation measuring apparatus according to a preferred embodiment of the present invention. FIG.
FIG. 5 is a diagram showing an operation state of a conduction type weighted precipitation measuring apparatus according to a preferred embodiment of the present invention,
FIG. 6 is a flowchart showing an operational flow of a conduction type weighted precipitation measuring apparatus according to a preferred embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In FIGS. 3 to 6, the same reference numerals are assigned to components performing the same functions. In the drawings and the detailed description, detailed description of specific elements and functions of elements not directly related to the technical features of the present invention will be omitted. .

3 to 6, a conduction type weighted precipitation measuring apparatus 10 according to a preferred embodiment of the present invention includes a base 20, a housing 30, a water receiving port 40, a collecting container 50, When the weight of the precipitation measured by the weight sensor 60 including the discharge port 60, the weight sensor 70, the control unit 80 and the management server 90 reaches the set weight of precipitation, And the weight of the precipitation measured by the weight sensor 70 is transferred to the management server 90 for storage and management, thereby reducing an error due to the precipitation amount measurement.

The base 20 is plate-shaped and fixed to the ground, and can be directly fixed to the ground, and a bracket (not shown) can be coupled to the bottom and fixed to the ground via the bracket.

The housing 30 is fixed to the upper part of the base 20 and has a cylindrical shape and has an internal space 31 and has an inlet 32 for allowing precipitation to flow in the upper part.

The water receiving port 40 is fixed to the upper surface of the base 20 by a bracket 41 and is positioned on the upper side of the inner space 31 of the housing 30 so as to collect the water flowing in from the inlet 32, And is discharged into the collection container 50, and is formed into a funnel shape.

The collecting container 50 is disposed below the water receiving port 40 and collects the water discharged through the water receiving port 40 and discharges the precipitation to both sides through the seesaw motion about the rotating shaft 51 .

The collector 50 is formed in a triangular shape so that the upper portion thereof is opened to collect the precipitation water discharged through the water receiving port 40. The partition wall 52 is formed at the center of the collector 50 and divided into left and right sides. At this time, a rotation shaft 51 is formed on the center side where the partition 52 is formed so that the collecting container 50 is rotated around the rotation axis 51 to be divided into left and right sides to collect the collected water.

The discharge port 60 is located on both sides of the collecting container 50 on the upper surface of the base 20 so that the collecting container 50 performs seesaw motion around the rotating shaft 51 and discharges the discharged water.

The weight sensor 70 is coupled to the lower portion of the collecting container 50 to measure the weight of the collected water in the collecting container 50 and is connected to the left and right lower portions of the collecting container 50, And the weight of the precipitation that is collected on the left and right sides of the water surface 50, respectively.

The control unit 80 receives the weight of the measured precipitation through the weight sensor 70 and rotates the collecting container 50 around the rotation axis 51. The control unit 80 includes a data collecting unit 81, ).

The data collecting unit 81 receives the measured weight of the precipitation weight from the weight sensor 70 and judges whether the weight of the transmitted precipitation reaches the predetermined weight of the precipitation.

Meanwhile, the data collecting unit 81 transmits the weight of the precipitation transmitted from the weight sensor 70 to the management server 90, which will be described later, and transmits the weight of the precipitation to the management server 90 via the wireless communication system.

The driving unit 82 rotates the collecting container 50 around the rotating shaft 51 when it is determined by the data collecting unit 81 that the weight of the precipitation measured by the weight sensor 70 reaches the set weight of precipitation Let the precipitation be forced drain.

The management server 90 stores the weight of the precipitation transmitted from the data collection unit 81 of the control unit 80 and converts the weight of the precipitation into the amount of precipitation. That is, the weight sensor 70 measures the weight of the rainwater collected on the left or right side of the collecting container 50 and transmits it to the data collecting unit 81. The data collecting unit 81 manages the weight of the received precipitation To the server 90 and the management server 90 stores it. Thereafter, the weight of the stored precipitation is accumulated, and the amount of precipitation is calculated after converting into the precipitation amount.

As described above, according to the conduction type weighted precipitation measuring apparatus 10 of the present invention, by measuring the weight of the precipitation and measuring the real time precipitation amount by converting it into the precipitation amount, it is possible to measure the precipitation amount There is an effect that the error can be reduced.

Particularly, the weight sensor 70 is installed under the collecting container 50 to measure the weight of the collected water in the collecting container 50. When the weight of the measured water reaches the set weight of the precipitation water, ), It is possible to reduce errors due to the precipitation measurement.

FIG. 5 is a view showing an operation state of a conduction type weighted precipitation measuring apparatus according to a preferred embodiment of the present invention, FIG. 6 is a flowchart showing an operation flow of a conduction type weighted precipitation measuring apparatus according to a preferred embodiment of the present invention, to be.

5 and 6, the operation of the conduction type weighted precipitation measuring apparatus will be described. The precipitation water flows in through the inlet 32 of the housing 30 and flows through the water inlet 40 to the left Lt; / RTI > The weight of the precipitation water collected on the left side of the collecting container 50 is weighed by the weight sensor 70 coupled to the lower left portion of the collecting container 50 and the measured weight is transmitted to the data collecting unit 81 The driving unit 82 rotates the rotating shaft 51 to forcibly discharge the water collected in the left side of the collecting container 50 to the discharge port 60 (A)). Thereafter, the collecting container 50 is rotated, and the precipitation water discharged through the water receiving port 40 is collected on the right side of the collecting container 50. The collected water is measured by the weight sensor 70 on the right side And the measured weight is transmitted to the data collecting unit 81. The data collecting unit 81 determines whether the weight of the precipitation transmitted to the data collecting unit 81 reaches the set weight and rotates the rotating shaft 51 through the driving unit 82 to collect the water So that the rainwater is forcibly discharged through the discharge port 60 (see FIG. 5 (b)). The weight of the measured precipitation is transmitted to the management server 90, and the management server 90 converts the weight of the precipitation to the amount of precipitation to calculate the amount of precipitation .

Although the present invention has been described in connection with what is presently considered to be the preferred embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. It will be understood by those skilled in the art that changes and modifications may be made.

10: Conductivity type weighted precipitation measuring device
20: base 30: housing
31: inner space 32: inlet
40: water receptacle 50: collector
60: outlet 70: muge sensor
80: control unit 81: data collecting unit
82: driver 90: management server

Claims (3)

A base (20) fixed to the ground;
A cylindrical housing 30 fixed to the upper portion of the base 20 and having an internal space 31 and having an inlet 32 through which precipitation flows in the upper portion;
A water outlet 40 which is formed in the shape of a funnel and is located above the internal space 31 of the housing 30 and collects the rainwater flowing through the inlet 32 of the housing 30;
A collecting device 50 disposed below the water receiving port 40 for collecting the water discharged through the water receiving port 40 and discharging the precipitation to both sides through a seesaw motion about the rotating shaft 51;
A discharge port 60 positioned at both sides of the collecting container 50 at an upper portion of the base 20 and discharging the precipitation water discharged by the seizure movement of the collecting container 50 to the outside;
A weight sensor 70 coupled to a lower portion of the collecting container 50 for measuring the weight of the collected water in the collecting container 50;
A controller 80 for receiving the weight of the measured precipitation through the weight sensor 70 and rotating the collector 50 about the rotation axis;
And a management server 90 for receiving the weight of the precipitation through the control unit 80 and calculating the amount of precipitation by converting the weight of the received precipitation into the amount of precipitation,
Wherein the controller (80) controls the collector (50) to perform a seesaw motion when the weight of the precipitation measured by the weight sensor (70) reaches the set weight of precipitation, thereby discharging the precipitation Type weighted precipitation measuring device.
The method according to claim 1,
The control unit 80 receives the weight of the measured precipitation from the weight sensor 70 and determines whether the weight of the transmitted precipitation has reached the set precipitation weight;
When the data collecting unit 81 determines that the weight of the precipitation measured by the weight sensor 70 has reached the set weight of precipitation, the collecting unit 50 is rotated around the rotation shaft 51, And a driving unit (82) for forcibly draining the water.
3. The method of claim 2,
Wherein the management server (90) receives the weight of precipitation from the data collection unit (81), converts the weight of the received precipitation into the amount of precipitation and stores it, and calculates the real time precipitation amount by summing the stored amount of precipitation Type weighted precipitation measuring device.

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