KR20220067425A - Installation method of forest flow rate measuring device of catchment type - Google Patents

Abstract

The present invention relates to a method for installing a forest flow rate measurement device of a catchment type. More specifically, the method comprises the steps of: a position setting step of setting an installation location by examining the periphery of the mountain stream of the forest for installing a flow rate measurement device; an excavation step of excavating the bottom surface of the mountain stream of the forest at the installation location so that fresh bedrock is exposed; a pouring step for integrally pouring concrete to install the flow rate measurement device on the exposed fresh bedrock; and a soil covering step of restoring the mountain stream of the forest by covering an upper end of the flow rate measurement device with soil so that the upper end is exposed. Therefore, even when it is raining in the forest as well as when it is not raining, the method can maintain the water quantity of the mountain stream at a predetermined amount, can precisely measure the water quantity, thereby improving reliability, and can reduce the flow velocity, thereby preventing loss.

Description

Installation method of forest flow rate measuring device of catchment type

The present invention relates to a method for installing a measuring device, and more particularly, to store a forest stream, but when the water level is above a certain level, as it moves downstream, it not only maintains a certain amount of water but also can measure the amount of overflow, so it is possible to accurately measure the amount of flow. It relates to a method for installing a forest flow measurement device of a water collection type that can improve reliability by measurement.

In general, the importance of measuring the flow rate of small rivers is emerging for efficient management of water resources, and furthermore, the need for flow management of forest water resources is emerging.

Here, in order to provide guidelines for the efficient creation and management of water-reinforced forests through the policy of promoting water source cultivation projects such as forest cultivation, which is currently underway in mountain villages across the country, among methods for increasing the water content of forests, forest water resource characterization and database (DB) is being built.

For this reason, forest flow observation facilities are installed to monitor forest water resource characteristics and database construction, and runoff is calculated according to watershed characteristics.

As disclosed in Korean Patent Application Laid-Open No. 10-2012-0109034, a conventional simple flow rate measurement device is installed with a water channel panel and a weir plate to measure the water level at the moment it overflows, thereby inducing easy management.

However, the conventional simple flow measurement device can be used only where the notched beam is installed, and can be selectively used according to the conditions of the area, so there is a problem in compatibility.

In addition, the conventional simple flow rate measurement device is installed for a long period of time, but as it is not integrally installed on the beam, there is a problem that the position is changed or lost due to the increased flow rate, so that the water level cannot be measured.

In particular, in the case of forests, as the stream moves downstream rapidly even when it rains due to the steep slope of the stream, the possibility of loss of the installed flow measurement device is higher. However, there is a problem in that accurate measurement cannot be performed.

Accordingly, there is an urgent need for the development of a technology capable of accurately measuring the amount of water in a forest stream during the dry season as well as the feng shui season.

Accordingly, the present invention has been devised to solve the above problems. A positioning step of setting an installation location by examining the vicinity of a forest mooring for installing a flow rate measuring device, excavating the bottom surface of the forest mooring at the installation location However, the excavation step of excavating so that the fresh rock is exposed, the pouring step of integrally pouring the flow rate measuring device to the exposed fresh rock, and covering the upper end of the poured flow measuring device to expose the forest stream to restore the forest stream The purpose of this is to provide a method for installing a water collection type forest flow measurement device that can accurately measure the quantity of streams even when it rains, as well as when it is not raining, to improve reliability in the forest, including the soil cover step.

The present invention for achieving the above object is a position setting step of setting an installation location by examining the vicinity of a forest mooring for installing a flow rate measuring device, excavating the bottom surface of the forest mooring at the installation position, but excavating so that fresh rock is exposed excavation step, a pouring step for integrally pouring the flow rate measuring device on the exposed fresh rock, and a covering step for restoring the forest stream by covering the upper end of the poured flow rate measuring device to be exposed.

Preferably, the flow rate measuring device includes a body part having a flow path through which a forest stream passes and collecting a certain amount of water, a blocking wall for blocking the mooring to guide a mooring into the body part flow path, and protruding from the body part When the water level is higher than a certain level, it includes a notch part to which the mooring moves over, and a flow rate measuring part provided in the body part to measure the flow rate of the mooring.

And the body portion is poured into fresh rock in the underground stream, the flow path has a certain length in the downstream direction, the mooring is temporarily stored, an inlet for introducing the mooring into the flow path, and the mooring stored in the flow path toward the downstream. It includes an outlet for discharging, and a water cushion for preventing cattle from being formed on the mooring floor by the mooring discharged through the outlet.

In addition, in the inlet, the height of the inflow bottom is located above the bottom of the flow path, and the two inflow side surfaces are inclined outward toward the top.

And the outlet, the lower end of the two discharge side symmetrically inclined to each other in the central part to form a discharge bottom, the height of the discharge bottom is located above the bottom of the flow path, and is located lower than the bottom of the inlet.

In addition, the pouring step includes a lower end pouring step of pouring the lower end of the body on the fresh rock, a notch installing step of installing the notch so that the lower end is poured during the lower end pouring step, the flow path to the upper side of the lower end of the body A step of pouring an upper end having a do.

And the flow rate measurement unit includes a water purification well formed on the side wall of the body so that the mooring stored in the flow path flows in and fills it, a first purified water outlet formed on a side wall adjacent to the bottom of the flow path so that the mooring flows into and out of the water well; A second well water inlet located on the upper side of the water purification well and formed on the side wall so that the mooring flows into and out of the water well, and a measuring unit for measuring the water level of the mooring flowing into the water well; Install the flow rate measurement unit.

In addition, the upper end of the water purification tablet is formed to protrude upward from the body portion.

And the body part further comprises a water supply unit for withdrawing the mooring stream stored in the flow path to the downstream side, and an external water level measuring unit for measuring the water level by introducing the mooring stream discharged by the receiving unit, and in the upper part pouring step is installed

In addition, the receiving/receiving unit includes a receiving/receiving hole formed at the same height as the bottom surface of the flow path, and a receiving/closing opening/closing unit for opening/closing the receiving/receiving hole.

And the outer water level measuring part is formed of a transparent material and is formed to open upward, and the outer water level water pipe filled with the mooring discharged from the water supply unit, and wrapped to protect the outer water level water pipe, a part of the outer water level water pipe is exposed an outer water level protection pipe provided to be possible; an outer water level indicator provided at an exposed portion of the outer water level protection tube to check the water level stored in the outer water level water level water level water level water level reservoir pipe; and an external water level inlet valve for introducing the mooring stream discharged from the water supply/receiving part into the external water level reservoir pipe, and an external water level discharge part for discharging the mooring stream filled in the external water level reservoir pipe.

In addition, the notch portion includes a notch placed on the body portion to protrude from the outlet at a certain height, and a notch sealing portion to seal a portion in contact with the protruding notch and the upper end of the body portion, the upper end portion After the pouring step, further comprising a notch sealing forming step of forming the notch sealing portion.

And it is formed to be inclined along the rear end of the upper end of the notch and further includes a notch guide for guiding a stream flowing over the notch downward.

In addition, the angle of inclination of the notch guide is 60° with respect to the upper surface of the notch.

And the notch guide is formed by 80% of the thickness of the notch.

In addition, it further includes a floating object blocking unit for preventing the floating material from being discharged to the outlet, and is installed after the upper end pouring step.

And the floating object blocking unit is provided at the rear side of the outlet and includes a floating material blocking frame, and a floating material blocking network provided on the floating material blocking frame to catch the floating material.

In addition, the method further includes a side wall installed along a forest stream, and a side wall installation step of installing a side wall between the excavation step and the pouring step.

And it further comprises a leak prevention part for preventing water leakage along the upstream lower end of the body part poured into the fresh rock, and after the lower part pouring step, a leak prevention part is formed along the upstream boundary of the lower end of the body part poured into the fresh rock. It further includes a leak prevention unit installation step.

In addition, the leak prevention part is filled with mud.

And the body part further includes an internal guide part, and further comprises an internal guide mounting step for mounting the internal guide before the lower part pouring step, and is poured together during the lower part pouring step.

In addition, the blocking wall is provided at both end portions of the body portion, respectively, and is formed to be perpendicular to the direction in which the stream flows.

In addition, the blocking wall is provided at both end portions of the body portion, respectively, and is formed to be inclined with the direction in which the mooring flows to guide the mooring to the flow path.

In addition, the location setting step of setting the installation location by examining the vicinity of the forest mooring for installing the flow rate measuring device, the excavation step of excavating the bottom surface of the forest mooring at the installation location to expose the fresh rock, the exposed A pouring step for integrally pouring the flow rate measuring device on the fresh rock, and a covering step of restoring the forest stream by covering the upper end of the poured flow rate measuring device to be exposed, wherein the pouring step includes the new rock The lower end casting step of pouring the lower end of the body to the lower end pouring step, the notch portion installation step of installing the notch so that the lower end is poured during the lower end pouring step, pouring the upper end having the flow path to the upper side of the lower end of the body portion, but the notch portion It includes an upper part pouring step of pouring the upper part so that the upper part is exposed, and a blocking wall pouring step of pouring a blocking wall to block the mooring and guide the mooring to the flow path of the body part.

And a location setting step of setting an installation location by examining the vicinity of a forest mooring for installing a flow rate measuring device, an excavation step of excavating the bottom surface of the forest mooring at the installation location to expose the fresh rock, and the exposed wire A pouring step for integrally pouring the flow rate measuring device on the bedrock, and a covering step of restoring the forest stream by covering the upper end of the poured flow rate measuring device to be exposed, wherein the pouring step includes, in the fresh rock The lower part pouring step of pouring the lower end of the body part, the notch part installation step of installing the notch part so that the lower part is poured during the lower part pouring step, pouring the upper part having the flow path above the lower part of the body part, but the upper part of the notch part The upper part pouring step of pouring the upper part so as to expose include

As described above, according to the installation method of the forest flow measurement device of the water collection type according to the present invention, it not only maintains a certain amount of the mooring water when it rains in the forest, but also when it does not rain, it can also accurately measure the reliability. It is a very useful and effective invention that can improve and reduce the flow rate to prevent loss.

1 is a view showing a flowchart of an installation method of a forest flow measurement device of a water collection method according to the present invention;
2 is a view showing a forest flow measurement device of a water collection method according to the present invention,
3 is a view showing a flow rate measurement unit according to the present invention,
4 is a view showing the pouring step according to the present invention,
5 is a view showing a state in which an external water level measuring unit according to the present invention is further provided;
6 is a view showing a state in which a floating object blocking unit according to the present invention is further provided;
7 is a view showing a notch according to the present invention,
8 is a view showing a flowchart of an installation method of a forest flow rate measuring device according to another embodiment of the present invention;
9 is a view showing a state in which an inner guide part according to the present invention is further provided;
10 is a view showing a flowchart of an installation method of a forest flow measurement device according to another embodiment of the present invention.

Hereinafter, preferred embodiments according to the present invention will be described in detail with reference to the accompanying drawings. DETAILED DESCRIPTION The detailed description set forth below in conjunction with the appended drawings is intended to describe exemplary embodiments of the present invention and is not intended to represent the only embodiments in which the present invention may be practiced. The following detailed description includes specific details in order to provide a thorough understanding of the present invention. However, one of ordinary skill in the art to which the present invention pertains will recognize that the present invention may be practiced without these specific details.

In some cases, well-known structures and devices may be omitted or shown in block diagram form focusing on core functions of each structure and device in order to avoid obscuring the concept of the present invention.

Throughout the specification, when a part is said to "comprising or including" a certain component, it does not exclude other components unless otherwise stated, meaning that other components may be further included. do. In addition, the term “…unit” described in the specification means a unit that processes at least one function or operation. Also, "a or an", "one", "the" and like related terms are used differently herein in the context of describing the invention (especially in the context of the following claims). Unless indicated or clearly contradicted by context, it may be used in a sense including both the singular and the plural.

In describing the embodiments of the present invention, if it is determined that a detailed description of a well-known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted. In addition, the terms to be described later are terms defined in consideration of functions in an embodiment of the present invention, which may vary according to intentions or customs of users and operators. Therefore, the definition should be made based on the content throughout this specification.

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

1 is a view showing a flow chart of an installation method of a water collection type forest flow rate measuring device according to the present invention, FIG. 2 is a view showing a water collecting type forest flow rate measuring device according to the present invention, and FIG. 3 is the present invention It is a view showing the flow rate measuring unit according to the invention, Figure 4 is a view showing the pouring step according to the present invention, Figure 5 is a view showing a state in which the external water level measuring part according to the present invention is further provided, and Figure 6 is this It is a view showing a state in which the floating object blocking part according to the present invention is further provided, FIG. 7 is a view showing a notch according to the present invention, and FIG. 8 is a flowchart of an installation method of a forest flow measurement device of another embodiment according to the present invention. 9 is a view showing a state in which an inner guide unit according to the present invention is further provided, and FIG. 10 is a flowchart showing an installation method of a forest flow measurement device according to another embodiment according to the present invention. .

As shown in the figure, the installation method of the forest flow measurement device of the water collection method includes a positioning step (S10), an excavation step (S20), a pouring step (S30), and a soil cover step (S40).

In the positioning step (S10), the installation location is set by examining the vicinity of the forest stream for installing the flow rate measuring device 10 .

And in the excavation step (S20), the bottom surface of the forest stream at the installation location determined in the positioning step (S10) is excavated so that the fresh rock 2 is exposed.

In the pouring step (S30), the flow rate measuring device 10 is poured on the exposed fresh rock 2 .

In addition, the covering step (S40) restores the forest stream by covering the upper end of the poured flow rate measuring device 10 to be exposed.

According to the installation method of the forest flow measurement device of the water collection method, it is possible to prevent the loss of soil and the like by preventing the rapid flow rate due to high inclination, as well as to maintain the water flowing into the forest stream and the underground stream at a certain water level. It is possible to easily secure and measure the flow rate.

For this purpose, the forest flow measurement device 10 of the water collection method includes a body portion 100, a blocking wall 200, a notch portion 300, and a flow rate measurement unit 400 as shown in FIGS. 2 to 3 . include

The body portion 100 is formed with a flow path 102 through which a forest stream passes.

And the blocking wall 200 is provided to block the mooring and guide the mooring to the flow path 102 of the body part 100 .

The notch 300 is provided so as to protrude from the bottom surface of the flow path 102 of the body 100 and is provided to move over the mooring when the water level is higher than a certain level.

In addition, the flow rate measurement unit 400 is provided in the body portion 100 to measure the flow rate of the mooring.

According to such a forest flow measurement system, it is possible to maintain a certain amount of water level in a forest stream, as well as accurately measure the mooring amount in case of rain.

Accordingly, it becomes the basis for controlling the water level and flow rate for the middle or downstream.

For this purpose, as shown in FIG. 3 , the body part 100 is poured into fresh rock in the mooring ground, and the mooring floor to be installed is excavated, excavated so that the bedrock is completely exposed, and then, as it is poured, is made with

Here, the flow path 102 has a predetermined length in the downstream direction, and the mooring is temporarily stored.

To this end, an inlet 110 and an outlet 120 are provided to store up to a certain water level of the mooring to control the water level.

The inlet 110 is provided to introduce the stream into the flow path 102 .

And the discharge port 120 is provided to discharge the mooring stream stored in the flow path 102 to the downstream.

Here, in the inlet 110, the height of the inlet bottom 112 is located above the bottom of the flow path 102, and the two inflow side surfaces 114 are inclined outward toward the top.

In addition, the discharge port 120 has the lower ends of the two discharge side surfaces 124 inclined symmetrically in contact with each other in the central portion to form the discharge bottom surface 122, and the height of the discharge bottom surface 122 is located above the bottom surface of the flow path 102 and is located lower than the inlet bottom 112 of the inlet 110 .

Accordingly, the water level of the mooring is maintained at the inlet 110 , and the mooring flowing over the inlet 110 is adjusted to a predetermined water level at the outlet 120 and discharged.

The flow rate measurement unit 400 measures the flow rate in the flow path 102 .

And the body portion 100 further includes a water cushion 130, the water cushion 130 is integrally formed with the body portion 100 so as to be located on the downstream side of the outlet (120).

The water cushion 130 prevents cattle from being formed on the mooring floor by the mooring discharged through the outlet 120 .

As shown in FIG. 4, the pouring step (S30) of the forest flow measurement device 10 of this water collection method is a lower part pouring step (S31), a notch part installation step (S32), an upper part pouring step (S33), and a barrier wall It includes a pouring step (S34).

In the lower part pouring step (S31), the lower part of the body part 100 is poured on the excavated and exposed fresh rock 2 .

And the notch part installation step (S32) installs the notch part 300 so that the lower part is poured at the time of the lower part pouring step (S31).

In the upper part pouring step (S33), the upper part having the flow path 102 is poured to the upper side of the lower part of the body part 100, and the upper part is poured so that the upper part of the notch part 300 is exposed.

In addition, in the blocking wall pouring step (S34), a blocking wall 200 is poured to block the forest mooring and guide the mooring to the flow path 102 of the body 100.

Accordingly, the forest stream is collected by the flow path 102 of the body portion 100 and maintained at a predetermined water level, and when it exceeds a predetermined water level, it flows downstream beyond the notch portion 300 .

And the flow rate measuring unit 400 includes a purified water well 410 , a first purified water inlet 420 , a second purified water inlet 430 , and a measuring unit 440 .

The water purification well 410 is formed on the side wall of the body 100 so that the mooring stream stored in the flow path 102 flows in and fills it.

In addition, the first purified water inlet 420 is formed on the side wall adjacent to the bottom surface of the flow path 102 so that the mooring enters and exits the purified water well 410 .

The second purified water inlet 430 is located on the upper side of the first purified water inlet 420 and is formed on the side wall so that the mooring flows into and out of the purified water well 410 .

And the measuring unit 440 is provided to measure the water level of the stream flowing into the water purification well 410 .

This flow rate measuring unit 400 is installed in the upper part pouring step (S33).

Here, the first purified water inlet 420 is formed in a hemispherical shape with a diameter in contact with the bottom surface of the flow path 102 , and the second purified water inlet 430 is formed in a circular shape.

Accordingly, the moorings stored in the flow path 102 are introduced through the first purified water inlet 420, and when the stored water level is the same as or similar to the height of the second purified water inlet 430, the mooring introduced into the purified water well 410 is moved back to the flow path 102 through the second purified water inlet 430 .

And when the stored water level is higher than the height of the second purified water inlet 430, the mooring flows in through the first purified water inlet 420, and the mooring flows in and out through the second purified water inlet 430 to the purified water well 410. The water level of the introduced mooring may be maintained at the same level as the water level of the flow path 102 .

In addition, the upper end of the water purification tablet 410 is formed to protrude upward of the body 100 , and the protruding height is formed to be 70 to 90 cm higher than the upper end of the body 100 , but is preferably formed to be 80 cm higher.

And the body part 100 further includes a water supply part 140 for withdrawing the mooring stream stored in the flow path 102 to the downstream side.

The receiving/receiving unit 140 includes a receiving/closing hole 142 and an opening/closing unit 144 .

The receiving hole 142 is formed at the same height as the bottom surface of the flow path 102 , and the receiving and opening opening 144 is provided to open and close the receiving and receiving hole 142 .

In addition, the forest flow measurement system further includes an external water level measuring unit 500 as shown in FIG. 5 .

The external water level measuring unit 500 is provided to measure the water level through which the mooring discharged by the water receiving unit 140 is introduced.

The outer water level measuring unit 500 includes an outer water level reservoir pipe 510 and an outer water level protection tube 520 , an outer water level display unit 530 , an outer water level cover 540 , an outer water level inlet valve 550 , and an outer water level outlet 560 . ) is included.

The outer water level water pipe 510 is formed of a transparent material and is formed to open upward, and the mooring discharged from the water supply unit 140 is filled.

In addition, the outer water level protection pipe 520 is wrapped to protect the outer water level water level water level reservoir pipe 510 , and a part of the outer water level water level water level water level reservoir pipe 510 is exposed.

The outer water level indicator 530 is provided at the exposed portion of the outer water level protection tube 520 to check the water level stored in the outer water level water level storage tube 510 .

In addition, the outer water level cover 540 is provided to open and close the open upper end of the outer water level water pipe 510 .

The external water level inlet valve 550 is provided to introduce the mooring stream discharged to the water supply unit 140 into the external water level reservoir pipe 510 .

And the outer water level discharge unit 560 is provided to discharge the moorings filled in the outer water level water pipe 510 .

This may measure the water level and water quantity by assisting the flow rate measurement unit 400 .

And as shown in FIG. 6, it further includes a floating matter blocking unit 600 for preventing the floating matter from being discharged to the outlet 120.

This floating object blocking part 600 is installed after the upper part pouring step (S33).

The floating object blocking unit 600 includes a floating object blocking frame 610 and a floating object blocking network 620 .

The floating object blocking frame 610 is provided at the rear side of the outlet 120 and is formed in the upstream direction of the stream.

In addition, the floating object blocking network 620 is provided in the floating object blocking frame 610 to catch the floating object.

The floating object blocking network 620 is formed along the outer circumferential surface of the floating material blocking frame 610, and is also formed at the lower end to block the inflow of floating objects moving into the water.

Accordingly, it is preferable to prevent the floating object from blocking the flow rate measurement unit 400 from generating a flow rate measurement error.

Here, the blocking wall 200 is provided at both end portions of the body portion 100, respectively, and is formed to be perpendicular to the direction in which the stream flows.

On the other hand, the blocking wall 200 is provided at both ends of the body portion 100, respectively, and is formed to be inclined with the direction in which the mooring flows to guide the mooring to the flow path 102 .

It goes without saying that the barrier wall 200 of each embodiment is installed in the best way depending on the number or width of the corresponding mooring.

And it is preferable to install the side wall 3 along the forest mooring street so that the mooring stream collects water into the body part 100 so that the water quantity can be precisely measured.

Here, the notch part 300 of the forest flow measurement system of each embodiment includes a notch 310 and a notch sealing part 320 as shown in FIGS. 7 to 8 .

The notch 310 is poured into the body part 100 to protrude to a predetermined height at the outlet 120 , and is installed together when the corresponding body part 100 is installed.

And the notch sealing part 320 seals the part in which the protruding notch 310 and the body part 100 come into contact.

The notch sealing part 320 is formed in the upper part pouring step (S33), and then in the notch sealing part forming step (S35).

The notch sealing part 320 prevents the water that has penetrated into the body part 100 from moving downstream by using the epoxy.

Here, the notch part 300 further includes a notch guide 330 .

The notch guide 330 is formed to be inclined along the rear end of the upper end of the notch 310 and is provided to guide the stream flowing over the notch 310 downward.

The inclination angle of the notch guide 330 is 60° with respect to the upper surface of the notch 310 and is formed to be 80% of the thickness of the notch 310 .

Accordingly, it is possible to prevent the water cushion 130 from being damaged by the mooring moving beyond the notch 300 .

Here, the forest flow measurement system of each embodiment further includes a leak prevention unit 700 .

The leak prevention part 700 is provided to prevent water leakage along the upstream lower end of the body part 100 cast on the fresh rock bed 2 .

The leak prevention unit 700 is filled with mud to minimize the bubble layer therein, thereby effectively preventing water leakage.

This can improve reliability because the precise amount of the mooring can be measured through each flow rate measurement unit 400 .

Such a leak prevention part 700 is formed in the leak prevention part installation step (S36) after the lower part pouring step (S31).

And as shown in FIGS. 9 to 10 , the body part 100 further includes an inner guide part 150 .

The inner guide part 150 collects water absorbed into the body part 100 and guides it to move to the central part of the forest stream.

The inner guide part 150 is provided in both directions based on the central part of the body part 100, and is provided to be inclined toward the central part.

Accordingly, as the water absorbed into the body part 100 during the forest mooring is guided to the mooring by preventing and minimizing the flow to the ground around the mooring, the flow rate of the forest mooring is maintained, and the ground flowing around the mooring is weakened. it can be prevented

Here, the forest stream includes absorption into the inside of the body part 100 located in the water and absorption of what flows into the mooring underground, as well as water collected in the mooring stream is also absorbed into the body part 100 .

As such, at least one inner guide unit 150 is provided to easily guide water.

This inner guide part 150 is mounted in the inner guide mounting step (S37) before the lower part pouring step (S31), and is poured together during the lower part pouring step (S31).

100: body 200: blocking wall
300: notch 310: notch
320: notch sealing part 330: notch guide
400: flow measurement unit 410: water purification
420: the first water purification entrance 430: the second water purification entrance
440: measuring unit 500: external water level measuring unit
510: outer water level water pipe 520: outer water level protection pipe
530: outer water level display unit 540: outer water level cover
550: external water level inlet valve 560: external water level outlet
600: floating object blocking part

Claims (10)

A location setting step of setting an installation location by examining the vicinity of a forest stream for installing a flow rate measuring device;
An excavation step of excavating the bottom surface of the forest stream at the installation location to expose fresh rock;
a pouring step for pouring the flow rate measuring device on the exposed fresh rock; and
A method of installing a forest flow measurement device of a water collection type comprising a; covering step of restoring the forest stream by covering the upper end of the poured flow rate measuring device to be exposed. According to claim 1, wherein the flow measurement device,
a body portion in which a flow path for collecting a predetermined amount of water through a forest stream is formed;
a blocking wall for blocking the mooring and guiding the mooring to the flow path of the body part;
a notch provided so as to protrude from the body and move over the mooring when the water level is higher than a certain level; and
A method of installing a water collection type forest flow measurement device comprising a; a flow rate measurement unit provided in the body portion to measure the flow rate of the stream. According to claim 2, wherein the body portion,
It is poured into the fresh bedrock of the underground stream,
The flow path has a certain length in the downstream direction, and the mooring is temporarily stored,
an inlet for introducing a mooring into the flow path;
an outlet for discharging the stream stored in the flow path to a downstream side; and
A method for installing a water collection type forest flow measurement device comprising a; water cushion for preventing cattle from forming on the mooring floor by the mooring discharged through the outlet. According to claim 3, wherein the pouring step,
a lower end pouring step of pouring the lower end of the body on the fresh rock;
a notch part installation step of installing the notch part so that the lower part is poured during the lower part pouring step;
an upper end pouring step of pouring an upper end having the flow path upwards to the upper side of the lower end of the body, pouring the upper end so that the upper end of the notch is exposed; and
The installation method of a forest flow measurement device of a water collection type comprising a; blocking the mooring and pouring a barrier wall for inducing the mooring to the flow path of the body part. 5. The method of claim 4,
The flow measurement unit,
a water purification well formed on the side wall of the body so that the mooring stream stored in the flow path is introduced and filled;
a first well water outlet formed on a side wall adjacent to a bottom surface of the flow path so that a mooring enters and exits the water purification well;
a second purified water inlet located above the first purified water inlet and formed on the side wall so that a mooring enters and exits the purified water well; and
Including; a measuring unit for measuring the water level of the stream flowing into the water purification well;
The installation method of a forest flow measurement device of a water collection type, characterized in that installing the flow rate measurement unit in the upper part pouring step. 6. The method of claim 5,
The body part,
a water supply unit for withdrawing the mooring stream stored in the flow path toward the downstream; and
It further includes; an external water level measuring unit for measuring the water level by flowing in the stream discharged by the water supply unit,
The installation method of the forest flow measurement device of the water collection type, characterized in that installed in the upper part pouring step. 5. The method of claim 4,
The notch portion,
a notch placed on the body to protrude from the outlet at a predetermined height; and
Including; and a notch sealing portion to seal the portion in contact with the protruding notch and the upper end of the body portion;
After the upper part pouring step, the notch sealing part forming step of forming the notch sealing part; Installation method of the forest flow measurement device of the water collection type further comprising a. 5. The method of claim 4,
Further comprising a leak prevention part for preventing water leakage along the upstream lower end of the body part poured into the fresh rock,
After the lower part pouring step,
The installation method of the forest flow measurement device of the water collection method further comprising; a leak prevention part installation step of forming a leak prevention part along the upstream boundary line of the lower part of the body part poured into the fresh rock. A location setting step of setting an installation location by examining the vicinity of a forest stream for installing a flow rate measuring device;
An excavation step of excavating the bottom surface of the forest stream at the installation location to expose fresh rock;
a pouring step for integrally pouring the flow rate measuring device on the exposed fresh rock; and
Covering the upper end of the poured flow rate measuring device so as to be exposed to restore the forest stream; including;
The pouring step is
a lower end pouring step of pouring the lower end of the body on the fresh rock;
a notch part installation step of installing the notch part so that the lower part is poured during the lower part pouring step;
an upper end pouring step of pouring an upper end having the flow path upwards to the upper side of the lower end of the body, pouring the upper end so that the upper end of the notch is exposed; and
The installation method of a forest flow measurement device of a water collection type comprising a; blocking the mooring and pouring a barrier wall for inducing the mooring to the flow path of the body part. A location setting step of setting an installation location by examining the vicinity of a forest stream for installing a flow rate measuring device;
An excavation step of excavating the bottom surface of the forest stream at the installation location to expose fresh rock;
a pouring step for integrally pouring the flow rate measuring device on the exposed fresh rock; and
Covering the upper end of the poured flow rate measuring device so as to be exposed to restore the forest stream; including;
The pouring step is
a lower end pouring step of pouring the lower end of the body on the fresh rock;
a notch part installation step of installing the notch part so that the lower part is poured during the lower part pouring step;
an upper end pouring step of pouring an upper end having the flow path upwards to the upper side of the lower end of the body, pouring the upper end so that the upper end of the notch is exposed;
a notch sealing part forming step of forming the notch sealing part; and
The installation method of a forest flow measurement device of a water collection type comprising a; blocking the mooring and pouring a barrier wall for inducing the mooring to the flow path of the body part.

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