KR101171742B1 - Measuring device for the load of dredged sediment behind debris barrier, manufacturing method of the device and measuring method of the load using the device - Google Patents

Abstract

PURPOSE: A device for measuring a load of sediment being deposited in the rear side of a debris barrier and a manufacturing method thereof and a load measuring method using the same are provided to rapidly inform a point where sediment is deposited to a manager and to continuously obtain enough detention storage because a deposited amount of the sediment is measured on a real time basis and analyzed. CONSTITUTION: A device for measuring a load of sediment being deposited in the rear side of a debris barrier comprises a supporting plate(100), a loading plate(200), a deposited sediment collecting member, and a load cell container. A settling unit(110) is formed in the supporting plate. The loading plate is arranged by being perpendicularly spaced from the supporting plate and a through-hole unit is formed at a position correspondently to the settling unit. The deposited sediment collecting member collects some of sediment being deposited on the loading plate by being inserted into the through-hole unit. The load cell container is inserted into the settling unit and comprises a load cell(300). The load cell supports the deposited sediment collecting member and measures a load of the sediment being collected by the deposited sediment collecting member.

Description

Measuring device for the load of dredged sediment behind debris barrier, manufacturing method of the device and measuring method of the load using the device}

The present invention relates to a load measuring apparatus for a dredged sedimentary sedimentary deposit on the back of a four dam, a manufacturing method thereof and a load measuring method using the same. It relates to a manufacturing method and a load measuring method using the same.

Since Korea is one of the topographical maps of the ground rotational cycle, there are many steep slopes, and many of the strata are developed, so there is a potential cause of landslides.

In particular, many rainfalls occur in this period every year because rainfall is concentrated between June and September, the rainy season. Therefore, the Forest Service is constructing many four-sided dams for the valley areas where the landslides will occur, and the number of installations of four-sided dams is increasing every year due to the increase in the landslides.

There are various kinds of four-sided dams according to their shapes, and conventional four-sided dams can be largely classified into concrete four-sided dams, steel frame four-sided dams and buttressless four-sided dams.

Specifically, the concrete four-sided dam is the most commonly used four-sided dam, which is a structure that is installed on the downstream side of the river on a large scale as a four-sided dam for the purpose of water storage / storage, and also, the steel frame four-sided dam is installed downstream of the river In addition, it is a multifunctional dam with water purification.

In addition, the buttress four-side dam has the same function as the slit four-sided dam in that it is installed upstream to prevent the loss of driftwood and rock, but in general, the buttress four-side dam filters the driftwood, the slit four-side dam is to filter the rock. Therefore, the stiffness of the buttresses must be increased when the buttresses must be used for the purpose of preventing large rocks depending on the installation site.

The invention filed in Korean Patent Application No. 10-2002-0052058 is the first step of flatly forming the base surface of the location to install the four sides dam, and the frame made of steel beam bolted to each other in the longitudinal section of the rectangular cross-section of the trapezoidal trapezoid Steel frames with screens are formed in various rows so as to correspond to the width and length of the four-side dams to be installed on the base surface, and to fill the inside of the steel frame, forming the outer edge and at least one or more faces on the six sides. A second step of filling a third step of laminating and placing another steel frame with the heat of one column less than the number of heat of the steel frame disposed at the lower end on the upper surface of the steel frame installed in a single layer on the base surface; Repeat the second and third steps to stack the steel frame to the target height of the four sides dam and Filling material and introduces the method of check dam construction to prevent the bed of the valley and river are eroded by running water.

In addition, the invention filed in the Republic of Korea Patent Application No. 10-2007-0085900 is provided with an anchor member in the concrete, which is the base flooring, and screwing a plurality of support members to the anchor member without having to bury the separate anchor member By introducing a shock absorbing tube around the anchor member to protect the anchor member, the slit square dam has been introduced to simplify the construction, reduce the construction period and the construction cost, and improve the rigidity of the structure.

On the other hand, after installing the four sides of the dam, when the landslide occurs and after the occurrence of the landslide landslides do not proceed in an appropriate time, there is a problem that the function of the four sides dam can be weakened by this.

Therefore, in order to continuously observe the dredged sediments of the four dams, it is necessary to measure the amount of dredged sediments accumulated in the four dams in real time and determine the dredging time based on this in order to enable immediate response to the manager.

The present invention has been invented to solve the problems described above, by measuring the amount of dredged sediment accumulated on the back of the four dams in real time by analyzing the amount of dredging, the load measurement of the four sides of the dredged sedimentary sediment sediment can quickly inform the manager of the dredging time An object of the present invention is to provide a device, a manufacturing method thereof, and a load measuring method using the same.

Apparatus for measuring the load of the four-sided dam back dredged sediment according to the present invention in order to achieve the object as described above, the support plate is formed with a seating portion, the backing plate is disposed at regular intervals perpendicular to the support plate, and one end to the seating portion A filling member inserted into the other end to support the loading plate and filling at least one load cell measuring the load of the dredged sediment collected in the loading plate and a space between the loading plate and the support plate to prevent foreign substances from entering; It is characterized by including.

In addition, the load measuring device of the four-sided dam back dredged sediment according to the present invention is a support plate formed with a seating portion, a lower plate is disposed spaced apart at regular intervals vertically with the support plate, the lower plate formed with a hole in a position corresponding to the seating portion, the barrel A dredged sediment collecting member for collecting a portion of the dredged sediment which is inserted into the study board and accumulated on the base plate and one end is inserted into the seating part and supports the dredged sediment collecting member therein and the dredged sediment collected in the dredged sediment collecting member. It characterized in that it comprises a load cell container having at least one load cell for measuring the load of.

In addition, according to the present invention, a method for manufacturing a load measuring device for a four-sided backside dredge sediment includes a support plate forming step of forming a groove-shaped seating portion on a support plate, and inserting one end of at least one load cell into the seating portion to support the load cell. Load cell fixing step of fixing to, and the loading plate arrangement step of placing the center of the loading plate on the other end of the load cell and the filling member filling the separation space between the loading plate and the support plate to the filling member to prevent the inflow of foreign matter Characterized in that it comprises a step.

In addition, the method for manufacturing a load measuring device of the four-sided dam back dredged sediment according to the present invention includes a support plate forming step of forming a groove-shaped seating portion on the support plate, a loading plate forming step of forming a through hole in the lower plate, and at least one inside A load cell container fixing step of inserting one end of a load cell container having a load cell into the seating part to fix the load cell container to the support plate; and a dredged material collection member arranging step of arranging a dredged material collection member at the other end of the load cell And a loading plate disposing step of inserting the dredge sediment collecting member into the through hole to arrange the loading plate at a predetermined interval vertically from the support plate.

In addition, the method for measuring the load of the dredge sedimentary deposit on the four sides of the dam according to the present invention is a step of installing a load measuring device for installing the load measuring device of the four-sided dredging sediment on the bottom of the four-side dam, and the load provided in the load measuring device And a load measuring step of measuring a load of the dredged sediment accumulated in the plate or dredged sediment collecting member to generate a load data signal, and transmitting a load data signal which transmits a load data signal which is a load value of the dredged sediment to the outside. It is done.

As described above, according to the present invention, the method for measuring the load of a dredged sedimentary sedimentary deposit on the rear dam, and the method for measuring the load using the same, dredging to the manager by analyzing the amount of dredged sediment accumulated on the backside of the four dams in real time It is possible to inform the time quickly, and accordingly, there is an effect that can continuously secure the storage capacity of the four sides dam.

1 is a first configuration of the load measuring device of the four-side dam back dredged sediment according to the first embodiment of the present invention.
Figure 2 is a second configuration of the load measuring device of the four sides dam back dredged sediment according to the first embodiment of the present invention.
3 is a third configuration diagram of a load measuring device for a dredge sediment on the rear of the four sides dam according to the first embodiment of the present invention.
Figure 4 is a first configuration of the load measuring device of the four sides dam back dredged sediment according to the second embodiment of the present invention.
Figure 5 is a second configuration of the load measuring device of the four-side dam back dredged sediment according to the second embodiment of the present invention.
Figure 6 is a view showing an installation example of the load measuring device of the four sides dam back dredged sediment according to the present invention.
7 is a first block diagram of a method for manufacturing a load measuring apparatus for a dredge sediment on the back of a four-side dam in accordance with a first embodiment of the present invention.
FIG. 8 is a second block diagram of a method for manufacturing a load measuring apparatus for a dredge sediment on the back of a four-side dam according to a first embodiment of the present invention; FIG.
9 is a third block diagram of a method for manufacturing a load measuring apparatus for a dredge sediment on the back of a four-side dam in accordance with a first embodiment of the present invention.
FIG. 10 is a first block diagram of a method for manufacturing a load measuring apparatus for a dredged sediment on a rear dam according to a second embodiment of the present invention. FIG.
FIG. 11 is a second block diagram of a method for manufacturing a load measuring device for a dredge sediment on the back of a four-side dam according to a second embodiment of the present invention; FIG.
12 is a third block diagram of a method for manufacturing a load measuring apparatus for a dredge sediment on the back of a four-side dam according to a second embodiment of the present invention.
Figure 13 is a block diagram of a method for measuring the load of the four sides dam back dredged sediment according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. First, it should be noted that the same components or parts among the drawings denote the same reference numerals whenever possible. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted so as not to obscure the subject matter of the present invention.

1 is a first configuration diagram of an apparatus for measuring a load of a dredge sediment on the back of a four-side dam according to a first embodiment of the present invention.

Here, the four sides of the back dam means a place where the soil flow flowing from the top of the valley is deposited by the four sides dam to form dredged sediment.

As shown in FIG. 1, in the load measuring apparatus of the four-sided dam back dredge sediment according to the first embodiment of the present invention, the support plate 100, the loading plate 200, the load cell 300, and the filling member 400 are provided. Include.

The support plate 100 may have a seating part 110 on which the load cell 300 is seated.

Specifically, the support plate 100 may be made of a concrete material, and may include a shear bar designed to resist shear or sine tension and a flexural bar designed to resist warp tensile force.

The loading plate 200 collects the dredged sediment 800 on the upper portion and may be spaced apart from the support plate 100 by a predetermined interval vertically.

The load cell 300 may be made of at least one, may be made of a special material that does not cause rust, one end is inserted into the seating portion 110 and the other end to support the lower plate 200 The load of the dredged sediment 800 collected in the backing plate 200 may be measured.

Specifically, the load cell 300 measures the load of the dredged deposit 800 to generate a load data signal that is a load value of the dredged deposit 800, after which the load data signal is not shown, but the load cell 300 By transmitting to the outside through a data line (not shown) provided in the) it can be induced to the administrator to determine the dredging time of dredged sediment.

The filling member 400 is filled in the spaced space between the loading plate 200 and the support plate 100 to prevent the inflow of foreign matter, the foreign matter around the load cell 300 by the filling member 400. As the inflow of the load cell 300 is prevented, the load of the dredged sediment 800 collected on the loading plate 200 can be accurately measured.

FIG. 2 is a second configuration diagram of a load measuring apparatus for a dredged sediment on a rear dam according to a first embodiment of the present invention. FIG.

In addition, the load measuring device of the four-side dam back dredged sediment according to the first embodiment of the present invention, as shown in Figure 2, a plurality of variable capacity plate 600 between the support plate 100 and the lower plate 200 It may further include.

The capacitive variable plate 600 may have one end connected to the support plate 100 and the other end connected to the loading plate 200 to increase the measurement capacity of the load cell 300.

Specifically, a plurality of the variable capacity plate 600 may be installed vertically between the support plate 100 and the loading plate 200, for example, the load capacity of a certain range that the load cell 300 can measure When it is necessary to measure the load of the dredged sediment 800 in excess of, absorbing a certain load in the variable volume plate 600, only the remaining load is applied to the load cell 300 of the dredged sediment (800) The load may cause the load cell 300 to fall within the measurable load capacity range.

In this case, the capacity change of the load cell 300 according to the load absorbed by the variable capacity plate 600 can be obtained by converting the value actually measured by the load cell 300 through calibration.

3 is a third configuration diagram of a load measuring apparatus for a dredge sediment on the back of a four-side dam according to the first embodiment of the present invention.

In addition, the device for measuring the load of the four-sided dam back dredged sediment according to the first embodiment of the present invention may further include a cover member 700 installed outside the filling member 400. .

The cover member 700 may cover the outside of the filling member 400 to prevent deformation and damage of the filling member 400 due to an external force, and the load cell 300 by the cover member 700. As the inflow of foreign matter to the surroundings is prevented, the load cell 300 can accurately measure the load of the dredged sediment collected in the loading plate 200.

Hereinafter, an apparatus for measuring a load of a dredge sediment on the back of a four-side dam according to a second embodiment of the present invention will be described in detail.

4 is a first configuration diagram of a load measuring apparatus for a dredge sediment on the back of a four-side dam according to a second embodiment of the present invention.

As shown in FIG. 4, the apparatus for measuring the load of a dredged sedimentary deposit on the four sides of a dam according to a second embodiment of the present invention includes a support plate 100, a backing plate 200, a dredged material collection member 500, and a load cell container ( 350).

The support plate 100 may have a seating part 110 in which the load cell container 350 is seated in the same manner as the support plate provided in the load measuring device of the four-side dam back dredged deposit according to the first embodiment of the present invention.

At this time, the support plate 100 is made of a concrete material, and may include a shear reinforcement designed to resist shear or sine tension, and a flexural reinforcement designed to resist inclined tensile force.

The loading plate 200 collects the dredged sediment on the top and is spaced apart at regular intervals vertically with the support plate 100, the through-hole 210 may be formed at a position corresponding to the seating portion (110). .

The dredged sediment collecting member 500 may be inserted into the through-hole 210 to collect a portion of the dredged sediment accumulated in the lower plate 200.

Specifically, the dredged sediment collecting member 500 may be formed in a shape corresponding to the through hole 210, specifically, a cylindrical shape or a square column shape, and closely contact the inner circumference of the through hole 210. 210 may be made of an elastic material, for example, a rubber material so as to prevent the inflow of foreign matter.

Meanwhile, the dredge sediment collecting member 500 may include a loading plate 510 on which the dredge deposits are stacked, and side plates 520 provided on both sides of the loading plate 510, wherein the loading plate ( An O-ring 900 may be provided between the 510 and the side plate 520 to prevent foreign substances from flowing into the load cell container 350.

One end of the load cell container 350 may be inserted into the seating part 110, and may include at least one load cell 300 therein.

Here, the load cell 300 may be made of a special material that does not cause rust, and may support the dredged sediment collecting member 500 to measure the load of the dredged sediment collected from the dredged sediment collecting member 500. have.

In this case, the load cell 300 is a load value of the dredged sediment by measuring the load of the dredged sediment 800 in the same manner as the load cell provided in the load measuring device of the four sides dam back dredged sediment according to the first embodiment of the present invention After generating a data signal, the load data signal is transmitted to the outside through a data line (not shown) provided in the load cell 300, although not shown, to induce an administrator to determine the dredging time of dredged sediment. have.

On the other hand, the load cell container 350 may prevent foreign matters from entering into the inside by sidewalls, and the load cell 300 is prevented from entering foreign matters around the load cell 300 by the load cell container 350. ) Can accurately measure the load of the dredged sediment 800 collected in the dredged sediment collection member 500.

In addition, the load cell container 350 may include a seating plate 351 on which the load cell 300 is seated, and side plates 152 provided on both sides of the seating plate 351. Here, the seating plate An O-ring 900 may be provided between the 351 and the side plate 152 to prevent foreign substances from flowing into the load cell container 350.

In addition, although the load measuring device of the four-side dam back dredged sediment according to the second embodiment of the present invention is not shown, a plurality of variable capacity plates may be further included between the support plate 100 and the loading plate 200.

The displacement variable plate is connected to the support plate 100 at one end thereof and the other end of the loading plate in the same manner as the displacement variable plate provided in the load measuring device of the four-side dam back dredge sediment according to the first embodiment of the present invention. It is connected to the 200 may increase the measurement capacity of the load cell 300.

That is, when the load cell 300 has to measure the load of the dredged sediment exceeding the load capacity of a certain range that can be measured, absorbs a certain load in the variable volume plate, only the remaining load to the load cell 300 The load of the dredged deposit 800 may be within the range of load capacity that the load cell 300 can be measured.

FIG. 5 is a second configuration diagram of a load measuring apparatus for a dredge sediment on the back of a four-side dam according to a second embodiment of the present invention.

In addition, the load measuring device of the four-side dam back dredged sediment according to the second embodiment of the present invention, as shown in Figure 5, a plurality of support members 750 provided between the support plate 100 and the lower plate 200 It may further include.

The support member 750 may have one end connected to the support plate 100 and the other end connected to the loading plate 200 to support the loading plate 200 on the support plate 100.

Hereinafter, a method for manufacturing a load measuring device for a dredge sediment on the back of a four-side dam according to the first embodiment of the present invention will be described in detail.

7 is a first block diagram of a method for manufacturing a load measuring apparatus for a dredged sediment on the back of a four-side dam according to a first embodiment of the present invention.

According to the first embodiment of the present invention, a method for manufacturing a load measuring device of a rear dam dredge sediment according to the first embodiment of the present invention includes a support plate forming step S10, a load cell fixing step S20, and a lower plate placing step S30. And a filling member filling step (S40).

The support plate forming step (S10) is a step of forming a groove-shaped mounting portion 100 in the support plate 100, as shown in FIGS. 1 to 3.

The load cell fixing step (S20) is a step of fixing the load cell 300 to the support plate 100 by inserting one end of at least one load cell 300 into the seating part 110.

The loading plate placing step (S30) is a step of arranging the center of the loading plate 200 on the other end of the load cell 300.

The filling member filling step (S40) is a step of filling the space between the loading plate 200 and the support plate 100 with the filling member 400 to prevent foreign substances from flowing into the space.

FIG. 8 is a second block diagram of a method for manufacturing a load measuring apparatus for a dredge sediment on the back of a four-side dam according to a first embodiment of the present invention.

In addition, according to the first embodiment of the present invention, the method for manufacturing a load measuring device of the four-sided dam back dredged sediment as shown in FIG. It may include.

As shown in FIG. 2, the variable displacement plate mounting step S50 may be performed by connecting one end of the plurality of variable displacement plates 600 to the support plate 100 and the other end of the variable displacement plate 600. It is a step of increasing the measurement capacity of the load cell 300 by connecting to the back plate 200.

FIG. 9 is a third block diagram of a method for manufacturing a load measuring apparatus for a dredge sediment on the back of a four-side dam according to a first embodiment of the present invention.

In addition, the method for manufacturing a load measuring device of the four-side dam back dredged sediment according to the first embodiment of the present invention, as shown in Figure 9, after the filling member filling step (S40), further comprising a cover member installation step (S55) can do.

As shown in FIG. 3, the cover member installation step S55 covers the outside of the filling member 400 with the cover member 700 to prevent deformation and damage of the filling member 400.

Hereinafter, a method of manufacturing a load measuring apparatus for a dredge sediment on the back of a four-side dam according to a second embodiment of the present invention will be described in detail.

FIG. 10 is a first block diagram of a method for manufacturing a load measuring apparatus for a dredge sediment on the back of a four-side dam according to a second embodiment of the present invention.

According to the second embodiment of the present invention, a method for manufacturing a load measuring device of a rear dam dredge sediment according to the second embodiment of the present invention includes a support plate forming step (S10), a lower plate forming step (S15), and a load cell container fixing step ( S22), and the dredged material collection member arranging step S25 and the lower plate arranging step S30.

The support plate forming step (S10) is a step of forming a groove-shaped seating portion in the support plate 100, as shown in Figs.

The loading plate forming step (S15) is a step of forming the through hole 210 in the loading plate 200.

Here, the back plate forming step (S15) is not shown, but may be performed before the support plate forming step (S10). That is, according to the present invention, after forming the through-hole 210 in the backing plate 200, it is possible to form a groove-shaped mounting portion 110 in the support plate 100.

The load cell container fixing step (S22) may include inserting one end of a load cell container 350 having at least one load cell 300 therein into the seating part 110 so that the load cell container 350 is supported by the support plate 100. ).

The dredge sediment collection member arrangement step (S25) is a step of disposing the dredged sediment collection member 500 on the other end of the load cell (300).

The loading plate placing step (S30) is a step of placing the loading plate 200 vertically spaced apart from the support plate 100 by inserting the dredge sediment collection member 500 into the through-hole 210. .

Here, the loading plate arrangement step (S30) is not shown, but may be performed before the dredged material collection member arrangement step (S25). That is, according to the present invention, by inserting the dredged sediment collecting member 500 in the through hole 210 of the lower plate 200, by placing the dredged sediment collecting member 500 on the other end of the load cell 300 The support plate 100 and the backing plate 200 may be disposed vertically spaced apart from each other.

FIG. 11 is a second block diagram of a method for manufacturing a load measuring apparatus for a dredged sediment on a rear dam according to a second embodiment of the present invention.

In addition, according to the second embodiment of the present invention, the method for manufacturing a load measuring device of the rear dam dredge sediment according to the second embodiment of the present invention further includes a capacity variable plate installing step (S50) after the loading plate placing step (S30). It may include.

The capacity variable plate installation step (S50) is connected to one end of the plurality of variable capacity plate to the support plate 100 and the other end of the variable capacity plate to the loading plate 200 of the load cell 300 Increasing the metering capacity.

12 is a third block diagram of a method for manufacturing a load measuring apparatus for a dredged sediment on the back of a four-side dam according to a second embodiment of the present invention.

In addition, the method for manufacturing a load measuring device of the four-side dam back dredged sediment according to the second embodiment of the present invention, after the loading plate arrangement step (S30), further comprises a support member installation step (S57) can do.

As shown in FIG. 5, the support member installation step S57 may be performed by connecting one end of the support member 750 to the support plate and the other end of the support member 750 to the lower plate. It is a step of supporting on the support plate.

Hereinafter, a method for measuring the load of a dredge sediment on the back of the four sides dam according to the present invention will be described in detail.

13 is a block diagram of a method for measuring the load of the dredge sediment on the back of the four sides dam in accordance with the present invention.

As shown in FIG. 13, the load measuring method of the four-sided dam dredge sediment according to the present invention includes a load measuring device installation step S100, a load measuring step S200, and a load data signal transmitting step S300.

Figure 6 is a view showing an installation example of the load measuring device of the four sides dam back dredged sediment according to the present invention.

The load measuring device installation step (S100) is, as shown in Figure 6, the four-side dam back dredge sediment load measuring device (1) according to the first and second embodiments of the present invention described above four sides dam (2) Installation on the bottom of the back.

The load measuring step (S200) is a load cell load load of the dredged sediment 800 accumulated in the loading plate 20 or dredged sediment collecting member 500 provided in the load measuring device as shown in Figures 1 to 5 It is a step of generating a load data signal by measuring using 300.

The load data signal transmitting step (S300) is a step of transmitting a load data signal that is a load value of the dredged deposit 800 to the outside through a data line (not shown) provided in the load cell 300.

The load data signal transmitted in the load data signal transmission step S300 may then be received by an administrator and used as data for determining dredging time.

As described above, according to the present invention, a load measuring apparatus for a dredged sedimentary deposit on the four sides of a dam, a manufacturing method thereof, and a load measuring method using the same, by analyzing the amount of dredged sediment accumulated on the rear of the four dams in real time to the manager by analyzing the dredging amount The dredging time can be informed quickly, and the storage capacity of the dams can be secured continuously.

As described above with reference to the drawings illustrating a load measuring device, a method of manufacturing the same and a load measuring method using the same, the dredge sediment of the four sides dam according to the present invention, the present invention is limited by the embodiments and drawings disclosed herein Of course, various modifications can be made by those skilled in the art within the technical scope of the present invention.

1: Load measuring device of dredged sediment on back of dam
2: four sides dam
100: support plate 110: seating part
200: the carrier 210: through
300: load cell 350: load cell container
351: mounting plate 400: filling member
500: dredged sediment collecting member 510: loading plate
520: side plate 600: capacity variable plate
700: cover member 750: support member
800: dredged sediment 900: O-ring
S10: support plate forming step
S15: Carrier Formation Step
S20: load cell fixing step
S22: load cell container fixing step
S25: placement of dredged sediment collection member
S30: Placement stage
S40: filling member filling step
S50: Capacity variable plate installation step
S55: Cover member installation step
S57: support member installation step
S100: Load measuring device installation step
S200: Load measurement stage
S300: step of transmitting a load data signal

Claims (12)

delete A support plate on which a seating portion is formed;
A backing plate disposed vertically spaced apart from the support plate at a predetermined interval, and having a through-hole formed at a position corresponding to the seating part;
A dredged sediment collecting member which is inserted into the through hole and collects a part of the dredged sediment accumulated on the lower plate; And
A load cell container having one or more ends inserted into the seating part, the load cell container supporting the dredged material collection member therein and having at least one load cell measuring a load of the dredged material collected by the dredged material collection member;
Apparatus for measuring the load of the four-sided dam back dredge sediment comprising a.
The method of claim 2,
One end is connected to the support plate and the other end is connected to the backing plate further comprises a plurality of variable displacement plate for increasing the measurement capacity of the load cell, the four sides dam back dredge sediment deposition apparatus.
delete The method of claim 2,
It is provided between the support plate and the lower plate, wherein one end is connected to the support plate and the other end is connected to the lower plate further comprises a plurality of support members for supporting the lower plate on the support plate Load measuring device of dredged sediment.
The method of claim 2,
The dredge sediment collecting member includes a stacking plate on which the dredge deposits are stacked, and side plates provided on both sides of the stacking plate,
An apparatus for measuring the load of a dredged sedimentary deposit on the four sides of the dam, characterized in that an O-ring is provided between the loading plate and the side plate to prevent foreign substances from entering the load cell container.
The method of claim 2,
The dredge sediment collection member is a load measuring device of the four sides dam back dredge sediment, characterized in that made of a rubber material.
The method of claim 2,
The load cell includes a data line for transmitting a load data signal, which is a load value of the dredged sediment to the outside, characterized in that the load measurement device of the four sides dam back dredged sediment.
The method of claim 2,
The support plate is made of a concrete material, the load measuring device of the four-sided dam back dredged sediment, characterized in that it comprises a shear reinforcement designed to resist shear or sine tension and flexural reinforcement designed to resist inclined tensile force.
delete A support plate forming step of forming a groove-shaped seating portion in the support plate;
A lower plate forming step of forming a hole in the lower plate;
A load cell container fixing step of inserting one end of a load cell container having at least one load cell therein into the seating portion to fix the load cell container to the support plate;
A dredged sediment collecting member disposing step of disposing a dredged sediment collecting member at the other end of the load cell; And
A loading plate disposing step of inserting the dredge sediment collecting member into the through hole to arrange the loading plate at a predetermined interval from the support plate;
Method for producing a load measuring device of the four sides dam back dredged sediment, characterized in that it comprises a.
delete

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