KR20110125293A - Tipping bucket for rain gauge and installing method therefor - Google Patents

Abstract

PURPOSE: The tipping bucket of a rain gauge and a method for installing the same are provided to reduce a cost required for producing processes by simplifying the producing processes. CONSTITUTION: The tipping bucket(100) of a rain gauge includes a triangular main body(110), a partitioning plate(120), guiding parts(130, 140), and a rotary shaft(150). A measuring part is formed at the main body, and rainwater is collected in both insides of the measuring part. The partitioning plate partitions a first measuring part(100A) and a second measuring part in the main body. The guiding parts are fixed to both sides of the main body. The rotary shaft is fixed between the guiding parts. One end part of the rotary shaft is expanded to be in connection with a sensor part.

Description

Tipping bucket and precipitation method of precipitation meter {TIPPING BUCKET FOR RAIN GAUGE AND INSTALLING METHOD THEREFOR}

The present invention relates to a tipping bucket of a precipitation system, and more particularly, to reduce the measurement error by improving the structure of the tipping bucket to increase the reaction speed, and at the same time, the structure is simple and the manufacturing process is simplified to reduce the production cost. The present invention relates to a tipping bucket of a precipitation system and a method of installing the same.

As is well known, the rainfall meter is a device for measuring precipitation, and a tipping bucket type precipitation meter is most widely used at present.

The structure and operation of the tipping bucket-type precipitation meter will be described with reference to the accompanying drawings.

1 is an external configuration diagram of a conventional tipping bucket-type precipitation meter, FIG. 2 is an internal front configuration diagram, FIG. 3 is an inner main perspective view, and FIG. 4 is an enlarged view of a tipping bucket region.

As shown, the conventional tipping bucket-type precipitation meter includes a base 20 fixed to be installed horizontally on the ground or a predetermined place, and a cylindrical cover 10 fixed to the upper portion of the base.

In addition, the upper end of the cover 10 is formed with a squirt opening 11 through which rainwater is introduced, and a funnel-shaped squid tank collecting the rainwater introduced through the filter net 12 and the squirt opening 11 therein. (13) is formed.

In addition, a water collecting cup 14 for collecting water discharged through the water collecting tank 13 and discharging downwardly at the lower end of the water collecting tank 13 is installed on the upper bracket 15, and the water collecting cup ( At the lower end of 14), a tipping bucket 30 that is seesawed to the left or right according to the amount of rainwater dropped is connected to the lower bracket 16.

In addition, on both lower bottom bases 20 of the tipping bucket 30, left and right drain bottles 41 and 42 are formed to guide the drained water to the ground when water contained in the tipping bucket 30 is discharged in a seesaw operation. do.

The inner lower end of the drain container 41 and 42 is opened so that rainwater introduced from the tipping bucket 30 is discharged to the lower end of the base 20.

In addition, the rainwater flowing out of the catching cup 14 alternately flows into the left and right measuring units 30A and 30B of the tipping bucket 30, and the tipping bucket 30 performs the right and left seesaw operation. The left and right motions of the 30 are detected by a sensor unit (not shown) connected to the rear surface of the lower bracket 16.

The sensing principle of the sensor unit is detected by a magnetic body installed at the rear end of the rotating shaft of the tipping bucket 30 and a reed switch installed close to the magnetic body.

In the precipitation system configured in this way,

The configuration of the tipping bucket 30 will be described in detail with reference to FIGS. 4 to 6.

As illustrated in FIG. 5, the tipping bucket 30 has a triangular main body 31 and a space constant at both sides in the center of the main body 31, that is, the first and second measuring units 30A and 30B. A partition plate 32 partitioned so as to form a shape, a guide part 33 fixedly installed at a central bottom surface of the main body 31, and a hinge formed integrally with the bottom surface of the guide part 33 and having a rotating shaft inserted therein. Branch portion 34, a support portion 35 for supporting the rotation shaft on one side, a balance weight 36 fixed to the bottom of the hinge portion 34, and the buffer portion provided on both sides of the bottom surface of the main body 31 And (37) (38).

In addition, fixing portions 51 and 52 are provided at both sides of the tipping bucket 30, respectively.

The fixing parts 51 and 52 are fixedly installed on the lower bracket 16, and the first and second height adjusting bolts 51a and 52a are screwed through the fixing parts 51 and 52. The fixing nuts 51b and 52b are fastened to the first and second height adjustment bolts 51a and 52a, respectively.

The first height adjustment bolt (51a) and the second height adjustment bolt (52a) by adjusting the height to adjust the angle (distance) of the tipping bucket 30 is rotated.

Here, we look at the measurement principle of rainfall.

Precipitation systems are available in 1.0mm and 0.5mm types, depending on the unit of rainwater being measured.

First, the 1.0mm type, when rainwater is accumulated at a height of 1mm in an area of 1 square meter (m ² ), the precipitation at this time is called '1', and the weight of the rainwater is about 31.42g.

In addition, in the 0.5mm type, when rainwater is accumulated at a height of 0.5mm in an area of 1 square meter (m ² ), the precipitation at this time is called '0.5', and the weight of the rainwater is about 15.71g.

The tipping bucket 30 remains inclined to the left or the right side, wherein the first height adjusting bolt 51a of the fixing parts 51 and 52 is opposite to the buffer part 37 or the buffer part 38. Or it is in contact with the second height adjustment bolt (52a) to maintain the current state.

In addition, the rainwater flowing out of the collecting cup 14 is filled in the first or second weighing portion 30A or 30B of the tipping bucket 30.

For example, in the case of a 1.0 mm type precipitation meter, when 31.42 g of rainwater is filled in one side of the first weighing portion 30A, the tipping bucket 30 rotates to the left, and the buffer portion 37 and the first height adjusting bolt ( 51a) is in contact with the rain water contained in the first metering portion (30A) is poured into the drain container (41).

At the same time, the sensor unit detects the rotational axis of the tipping bucket 30 to detect the rainfall '1'.

Then, when the other side of the second weighing portion 30B is filled with 31.42g of rainwater, the tipping bucket 30 is rotated to the right to make contact with the buffer portion 38 and the second height adjusting bolt 52a and at the same time, the second weighing portion Rainwater contained in 30B is poured into the sump 42, and the sensor unit detects precipitation '2'.

Here, the installation method of the conventional tipping bucket 30 will be described.

Here, an example of 1.0 mm type will be described. First, the tipping bucket 30 having the first and second weighing portions 30A and 30B is installed on the lower bracket 16, and the counterweight 36 is installed below the main body 31 of the tipping bucket 30. do.

Then, after filling 31.42 g of water on one side of the body portion 31, the weight of the balance weight 36 is varied so that the body 31 is inclined to the side of the body portion 31.42 g of water filled by the center of gravity. At this time, the variable weight of the balance weight 36 is provided with a plurality of balance weights 36 having different weights, and is a method of balancing by variable installation.

As such, when the tipping bucket 30 is balanced through the counterweight 36 and fine adjustment is required, the first and second height adjustment bolts 51a of the fixing parts 51 and 52 formed at the lower end thereof. By adjusting the 52a, by finely adjusting the angle (distance) at which the tipping bucket 30 is rotated, an accurate balance is achieved.

However, this conventional method has a problem that the 31.42g of rain water is filled in the first or the second weighing portion 30A or 30B does not rotate quickly when the main body 31 rotates to one side.

That is, 31.42 g of rainwater was filled in one side of the metering unit 31 to be rotated, but the motion of the counterweight 36 due to its own weight was to proceed slowly with time difference. Such a slow rotational motion is caused by the main body 31 rotating to one side due to the distance k between the central axis a of the collecting cup 14 and the central axis b of the tipping bucket 30 as shown in FIG. 6. Even during the rainwater flows in from the collecting cup 14, a measurement error was generated.

In addition, in the process of aligning the center of gravity of the tipping bucket 30, the distance between the center axis (a) of the water collecting cup 14 and the center axis (b) of the tipping bucket 30 due to the balance weight 36 having a constant weight There was a problem that (k) could not be near. This is due to the weight of the balance weight 36. When the distance k is narrowed, the tipping bucket 30 is inclined in the other direction due to its own weight, so that the distance k is inevitably maintained at a certain distance. It was because it included.

Therefore, in order to reduce the rainwater error due to the slow rotational reaction of the tipping bucket 30, the center of gravity is adjusted so that the tipping bucket 30 rotates in a quantitative amount of about 30.6g instead of 31.42g, which is the amount of residual rainwater introduced during rotation. The measurement error was attempted to overcome the measurement error of 31.42g, but the measurement was still limited.

The present invention has been made to solve the above problems, the object of the present invention is to improve the structure of the tipping bucket to reduce the measurement error by increasing the reaction speed, at the same time the structure is simple and the manufacturing process is simplified to reduce the production cost It is to provide a tipping bucket and a method of installing the precipitation system so that it can be.

The present invention for achieving the above object, the base is fixed to be installed horizontally on the ground or a predetermined place, the upper end is formed with a squid flows rain water is introduced, the filter network and the inside flowed through the sewer A funnel-shaped water tank for collecting rainwater is formed, and a cylindrical cover fixed to the upper portion of the base and a water discharged through the water tank installed at the lower end of the water tank are stably discharged downward. Is a catching cup, a tipping bucket installed at a lower end of the catching cup and acting on a seesaw according to the amount of rain water dropped, and a first height adjustment for setting the maximum angle when the tipping bucket rotates left or right. A height adjusting part including a bolt and a second height adjusting bolt, and water formed on both bottom bases of the tipping bucket and contained in the tipping bucket are seesaws. In the precipitation meter comprising a left and right drain container for guiding it to be discharged to the ground when it is discharged by the operation, and a sensor unit for detecting the left and right motion of the tipping bucket, the tipping bucket is, A triangular main body to be formed, a partition plate partitioning the first and second fixed parts to be formed at both ends in the center of the main body, first and second guide parts fixed to both side surfaces of the main body, and The bottom surface is fixedly installed between the first and second guide parts, and characterized in that it comprises a rotating shaft is extended one end is connected to the sensor unit.

In addition, the present invention further comprises a bent portion bent sharply at the central end of the bottom of the first and second weighing portions of the tipping bucket body.

In addition, the present invention is a base fixed to be installed horizontally on the ground or a predetermined place, the upper end is formed with a squirt to which rainwater flows, the inner side of the filter net and a funnel shape for collecting rainwater introduced through the squirt. A collection tank formed of a cylindrical cover fixed to the upper base, a collection cup installed at a lower end of the collection tank to collect water discharged through the collection tank and to be discharged downward stably, and Tipping bucket installed at the bottom of the collecting cup and acting on the seesaw according to the amount of rain water dropped, and the first height adjustment bolt and the second height adjustment to set the maximum angle when the tipping bucket is rotated left or right A height adjusting part including a bolt and formed on both bottom bases of the tipping bucket to receive the water contained in the tipping bucket when discharged in a seesaw operation. In the tipping bucket installation method of the tipping bucket is installed in the precipitation meter including a left and right drain to guide the drain to the ground, and the sensor unit for detecting the left and right motion of the tipping bucket, the first and second guide portion of the bottom surface of the main body of the tipping bucket The first step of setting the distance between the fixed rotating shaft and the bottom of the main body as close as possible, and after the first step the distance between the center axis of the discharge port and the center axis of the tipping bucket as close as possible It characterized in that it comprises a second process of setting the center of gravity of the tipping bucket while setting.

In the second process of the present invention, the tipping bucket is placed at one side of the tipping bucket to adjust the distance between the center axis of the discharge port and the tip axis of the tipping bucket to minimize the point of time when the tipping bucket starts to rotate. The first height adjustment bolt and / or the second height adjustment bolt of the height adjustment portion is characterized in that for adjusting and setting.

As described above, the present invention provides an advantage of reducing the measurement error by increasing the reaction speed of the tipping bucket, and at the same time, the structure is simple and the manufacturing process is simplified to reduce the production cost.

1 is an external configuration diagram of a conventional tipping bucket type precipitation meter,
2 is a front front configuration view of FIG.
3 is a perspective view of the inner main part of FIG.
4 is an enlarged perspective view of the tipping bucket of FIG. 3;
5 and 6 is an operating state diagram of the tipping bucket of FIG.
7 is an enlarged perspective view of the precipitation meter tipping bucket according to the present invention;
8 and 9 is an operating state diagram of the precipitation meter tipping bucket according to the present invention,
10 is an enlarged perspective view of the height adjusting unit according to the present invention;
11 is an internal configuration diagram of a precipitation system equipped with a tipping bucket according to the present invention.

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

First, in adding reference numerals to the components of each drawing, the same components have the same reference numerals as much as possible even though they are displayed on different drawings.

7 is an enlarged perspective view of the precipitation meter tipping bucket according to the present invention.

As shown, the precipitation meter tipping bucket 100 according to the present invention,

A triangular main body 110 having a fixed quantity part in which rain water is collected on both sides of the inside, and a partition plate partitioning the first and second fixed parts 100A and 100B to be formed at both ends in the center of the main body 110. 120, first and second guide parts 130 and 140 fixedly installed at both side surfaces of the main body 110, and bottom and first and second guide parts 130 of the main body 110 ( It is fixed between the 140, one end is configured to include a rotating shaft 150 is connected to the sensor unit.

In addition, at the central end of the bottom of the first weighing portion 100A and the second weighing portion 100B of the main body 110, the bent portions 111 and 112 which are sharply bent are further configured to be discharged without remaining amount during rainwater discharge. .

In addition, the partition plate 120 is composed of two plates to have a predetermined space so that the heater is built in the center.

In addition, buffers 113 and 114 are further formed on both sides of the bottom of the main body 110.

The precipitation precipitation tipping bucket 100 of the present invention configured as described above can be seen that there is no balance added when compared with the prior art.

The precipitation precipitation tipping bucket 100 of the present invention configured as described above,

As shown in FIG. 11, the base 20 fixed to be horizontally installed on the ground or a predetermined place, and a squid 11 into which rainwater flows are formed at an upper end thereof, and a filter net 12 and a squid grove 12 inside thereof. A funnel-shaped water tank 13 for collecting rainwater introduced through the water is formed and a cylindrical cover 10 fixed to the base 20 and a lower end of the water tank 13 are formed. A water collecting cup 14 installed to collect water discharged through the water collecting tank 13 and discharged downward stably, and installed at a lower end of the water collecting cup 14 to the left and right according to the amount of rain water dropped. A tipping bucket 100 that operates the seesaw, and a first height adjusting bolt 61 and a second height adjusting bolt 62 for setting the maximum angle when the tipping bucket 100 rotates left or right. It is formed on the height adjustment unit 60 and the lower base 20 on both sides of the tipping bucket 100 When the water contained in the tipping bucket 100 is discharged by the seesaw operation, it receives the left and right drain barrels (41, 42) for guiding to drain to the ground, and a sensor unit for sensing the left and right movements of the tipping bucket 100 In the precipitation meter,

The tipping bucket 100 is,

A triangular main body 110 having a fixed quantity part in which rain water is collected on both sides of the inside, and a partition plate partitioning the first and second fixed parts 100A and 100B to be formed at both ends in the center of the main body 110. 120, first and second guide parts 130 and 140 fixedly installed at both side surfaces of the main body 110, and bottom and first and second guide parts 130 of the main body 110 ( It is fixed between the 140, one end is configured to include a rotating shaft 150 is connected to the sensor unit.

In addition, according to the present invention,

The height adjustment unit 60, the first height adjustment bolt 61 and the second height adjustment bolt 62 is formed on the inclined guide portion 63, 64 on both sides is formed, the first Fixing nuts 65 and 66 are fastened to the height adjusting bolts 61 and the second height adjusting bolts 62, respectively.

End portions of the first height adjustment bolt 61 and the second height adjustment bolt 62 are in contact with the buffer portion 114, 115 of the tipping bucket 100, by adjusting the height tipping bucket 70 ) To adjust the angle of rotation.

Meanwhile, the installation method of the tipping bucket 200 of the present invention configured as described above will be described with reference to FIGS. 8 and 9.

Installation method of the tipping bucket 100 according to the present invention,

Bottom distance of the main body 110 of the tipping bucket 100 The distance j between the rotating shaft 150 and the bottom surface of the main body 110 fixedly formed between the first and second guide parts 130 and 140 are as close as possible. The first process (S10) to set up,

After the first step (S10), the tipping bucket 100 while setting the distance (m) between the central axis (a) of the water collecting cup 14 and the central axis (b) of the tipping bucket 100 as close as possible It includes a second process (S20) of adjusting the center of gravity of the).

Wherein the first process (S10),

As the distance j between the rotation shaft 150 and the bottom surface of the main body 110 is closer, the center of gravity of the tipping bucket 100 is located at the upper portion (minimum weight movement), so that the left and right rotation is quick. As a result, the reaction speed of the tipping bucket 100 is increased.

In the case of a conventional balance weight, it is contrasted with the phenomenon that the reaction speed becomes slow because of the weight balance.

And the second process (S20),

By setting the distance (m) between the central axis (a) of the water collecting cup 14 and the central axis (b) of the tipping bucket 100 to the closest distance, the center of gravity of the tipping bucket 100 is adjusted, (Example 32.42 g) of water in one side of the tipping bucket 100, the first height adjustment bolt 61 and the second height adjustment bolt 62 of the height adjustment unit 60 to minimize the distance (m). ) To adjust.

The method, by adjusting the tipping bucket (100) by adjusting the first height adjustment bolt 61 and / or the second height adjustment bolt 62 of the height adjustment unit 60 at the time when the tipping bucket 100 starts to rotate. The rotation inclination of 100 is adjusted, which leads to a result of minimizing the distance m.

This second process (S20) is minimized the distance (m) between the central axis (a) of the discharge port of the sump (14) and the central axis (b) of the tipping bucket 100, the tipping bucket 100 is to rotate When the residual rainwater flowing from the sump 14 is minimized, the rainfall measurement error can be greatly reduced.

100: tipping bucket 100A: first weighing unit
100B: second weighing unit 110: main body
111,112: bend portion 113,114: buffer portion
120: partition portion 130, 140: guide portion
150: rotation axis 60: height adjustment unit

Claims (4)

A base fixedly installed horizontally on a ground or a predetermined place is formed, and an upper sluice is formed with rainwater introduced therein, and a filter net and a funnel-shaped squid tank for collecting rainwater introduced through the squid are formed therein. And a cylindrical cover fixed to the upper base, a collecting cup installed at a lower end of the sump and collecting water discharged through the sump and stably discharged downward, and a lower end of the sump. A height including a tipping bucket installed on the left and right according to the amount of rain water installed and dropped, and a first height adjusting bolt and a second height adjusting bolt for setting the maximum angle when the tipping bucket rotates left or right. The controller is formed on the bottom bases on both sides of the tipping bucket, and when water contained in the tipping bucket is discharged by the seesaw operation, it is discharged to the ground. In the right and left drain passage to guide such that precipitation including a sensor for sensing the operation of the left and right tipping bucket type,
The tipping bucket,
A triangular main body in which rain water is collected in both sides of the inner body, a partition plate partitioning the first and second fixed parts to be formed at both ends in the center of the main body, and a first fixed side mounted to both sides of the main body. And a rotating shaft fixedly installed between the second guide part and the first and second guide parts of the bottom of the main body and having one end extended to be connected to the sensor part.
The method of claim 1,
The tipping bucket of the precipitation meter, characterized in that further configured to be bent sharply bent at the central end of the bottom of the first and second weighing portion of the tipping bucket body.
A base fixedly installed horizontally on a ground or a predetermined place is formed, and an upper sluice is formed with rainwater introduced therein, and a filter net and a funnel-shaped squid tank for collecting rainwater introduced through the squid are formed therein. And a cylindrical cover fixed to the upper base, a collecting cup installed at a lower end of the sump and collecting water discharged through the sump and stably discharged downward, and a lower end of the sump. A height including a tipping bucket installed on the left and right according to the amount of rain water installed and dropped, and a first height adjusting bolt and a second height adjusting bolt for setting the maximum angle when the tipping bucket rotates left or right. The controller is formed on the bottom bases on both sides of the tipping bucket, and when water contained in the tipping bucket is discharged by the seesaw operation, it is discharged to the ground. In the right and left drain passage to guide such that, how the installation of a tipping bucket, which is installed in the precipitation system including a sensor for sensing the right and left movement of the tipping bucket,
A first process of setting the distance between the rotating shaft fixedly formed between the first and second guide parts of the bottom surface of the tipping bucket and the bottom of the body to be as close as possible;
After the first step, the precipitation meter tipping, characterized in that it comprises a second step of adjusting the center of gravity of the tipping bucket while setting the distance between the center axis of the discharge port and the center axis of the tipping bucket as close as possible How to install a bucket.
The method of claim 3, wherein
The second step is to adjust the height of the tipping bucket to start the rotation of the tipping bucket by adjusting the minimum amount of water contained in one metering portion of the tipping bucket to minimize the distance between the central axis of the discharge port and the tipping bucket Method for installing a tipping bucket of precipitation meter, characterized in that for adjusting and setting the negative first height adjustment bolt and / or the second height adjustment bolt.

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