KR101657672B1 - a underwater settlement plate for measuring settlement of a reclaimed land - Google Patents

Abstract

The present invention relates to an underwater settlement plate for measuring a landfill settlement amount for measuring a settlement amount of a paperboard in a marine landfill. The submerged sedimentation plate for measuring landfill settlement amount according to an embodiment of the present invention is a submerged sedimentation plate for measuring landfill settlement amount for measuring the settling amount of underwater landfill in a marine landfill. The submerged sedimentation plate includes a plurality of fluidized- A plurality of screw anchors provided around the frame for fixing the perforated plate to the underwater base plate, a plurality of screw anchors installed around the perforated plate for floating on the water surface in the center of the perforated plate, And a scale line connecting the buoy and the plate to form a scale for measuring the depth of water from the water surface to the underwater ground. Therefore, the settlement amount of the marine landfill can be accurately and easily measured.

Description

[0001] The present invention relates to an underwater settlement plate for measuring landfill settlement,

The present invention relates to an underwater settlement plate for measuring a landfill settlement amount for measuring a settlement amount of a paperboard in a marine landfill.

When a portion of the sea is to be converted to land, landfill is formed by filling the soil and aggregate with a part of the sea lower than the surface of the sea to have the same or higher altitude as the surface of the sea.

Such a landfill should be determined by determining whether settlement occurs on the ground before landfilling and whether subsidence occurs in the landfill.

When forming the landfill as described above, a settlement plate is installed on the paperboard to determine the cause of settlement. The conventional settlement plate has been disclosed in Korean Patent No. 10-0698022 (published on March 23, 2007).

The conventional sinking plate has an elongated cylindrical type submerged rod protection tube and a submerged rod which is located inside the submerged rod protection tube and whose upper end projects outwardly, Wherein the lowering rod protection tube has a stiffener formed on the lower outer peripheral edge in four directions; A rectangular hole is formed in the corner portion, and a fixing hole is formed in the center of the fixing portion so that the deformation preventing anchor is engaged and fixed, and the lower end of the lowering rod is placed on the upper surface thereof, Respectively.

In the conventional sinking plate, when the square plate is fixed to the ground by the deformation preventing anchor, the sinking pipe protrusion protrudes to the upper portion of the landfill, and the sinking of the grounding sheet can be measured.

However, since the conventional sinking plate is installed so that the sinking rod protecting tube protrudes from the ground surface to the surface of the landfill, the manufacturing cost is increased and it is difficult to install the same, and when the sinking rod protecting tube is separated from the middle, There was a problem.

Particularly, in case of landfilling, it is difficult to install the subsidence plate because the subsurface protection pipe must be connected in the water.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems, and it is an object of the present invention to solve the above problems and to solve the above problems and to provide a landfill- And to provide a submerged settlement plate.

According to an aspect of the present invention, there is provided a submerged sedimentation plate for measuring landfill settlement amount of a marine landfill, comprising: a plurality of fluid flow holes formed in a bottom plate; A plurality of screw anchors installed around the frame to fix the perforated plate to the underwater base paper, a plurality of screw anchors installed on the surface of the perforated plate to float on the water surface, And a scribe line connecting the buoy to the perforated plate to form a scale for measuring the depth of water from the surface to the underwater ground.

And a carabiner coupled to one of the rings and the other one of the calorimetric plates and the caliper to easily remove the caliper from the calorific plate.

The screw anchor may include a screw portion projecting to the lower portion of the frame and fixed to the underwater cloth, and a handle portion projecting to the upper portion of the frame to rotate and fix the screw portion to the underwater substrate.

The buoy may include a take-up roller for winding up the graduation line, and a winding spring for supporting the take-up roller so that the graduation line is pulled by the elastic force in the direction in which the graduation line is wound on the take-up roller.

The hole plate may include a first plate covering an upper surface of the frame, and a second plate covering a lower surface of the frame.

According to the present invention, since the position of the perforated plate fixed to the underwater floor is measured by the buoy, it is not necessary to provide the downlisting pipe as in the prior art, so that it is easy to manufacture and the manufacturing cost can be reduced.

In addition, a plurality of fluid flow holes are formed in the plate, thereby minimizing the resistance of the fluid, thereby preventing the leakage and position of the plate from being changed.

In addition, since a scale line is provided on the buoy, it is easy to measure the elevation of the underwater ground, and it is advantageous that the scale line can be connected to the perforated plate.

Further, a screw anchor is provided with a handle portion, and a screw anchor can be easily installed on the underwater base paper. The perforated plate is composed of a first plate and a second plate, so that it is possible to measure a precise settlement amount at a later time.

In addition, since the scale line is held tightly in the buoys without being slackened by the elastic force of the take-up roller, the error in measurement of the depth of water can be minimized.

1 is a perspective view illustrating an underwater settlement plate for measuring landfill settlement amount according to an embodiment of the present invention.
FIG. 2 is an exploded perspective view of an underwater subsidence plate for measuring landfill settlement amount according to an embodiment of the present invention. FIG.
3 is a side view showing a state in which an underwater settlement plate for measuring landfill settlement amount according to an embodiment of the present invention is installed in an underwater floorboard.
4 is a side cross-sectional view showing a buoy of a submerged settlement plate for measuring landfill settlement amount according to an embodiment of the present invention.

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

1 and 2, the underwater settlement plate 100 for measuring the landfill settlement amount according to the embodiment of the present invention may include a perforated plate 110.

The perforated plate 110 may be provided at the bottom of the underwater base sheet 200 to form a boundary between the landfill to be buried and the underwater base sheet 200.

The hole plate 110 may be formed of one plate or a plurality of plates, and a plurality of fluid flow holes 111a may be formed so as not to resist the fluids in the water.

The perforated plate 110 may include a first plate 111 positioned at the upper portion and a second plate 112 positioned at the lower portion. The first plate 111 and the second plate 112 Can be disposed up and down.

As shown in FIGS. 1 to 3, the underwater settlement plate 100 for measuring the landfill settlement amount according to the embodiment of the present invention may include a frame 130.

The frame 130 is configured to increase the weight of the perforated plate 110 so that the perforated plate 110 is easily seated on the underfloor 200 and to support the perforated plate 110, And damage can be prevented.

Meanwhile, the frame 130 may be formed in a lattice shape of a twelve (10) in such a manner that a portion intersecting the rectangular frame is positioned at the center.

The first plate 111 is positioned on the upper surface of the frame 130 and the second plate 112 is positioned on the lower side of the frame 130. [ As shown in FIG.

The perforated plate 110 may be coupled to the frame 130 by a wire or the bolts may be coupled to the frame 130 through the perforated plate 110.

On the other hand, the perforated plate 110 is preferably formed of plywood or a synthetic resin which is not easily corroded. Here, when the porous plate 110 is made of synthetic resin, it can be present for a long time without being corroded in the landfill, so that the settlement amount of the landfill can be measured for a long period of time.

When the porous plate 110 is formed of synthetic resin, it may be formed to have a predetermined cone penetration resistance value.

Here, when the perforated plate 110 has a predetermined cone penetration resistance value, when the cone penetration test is performed for the settlement amount measurement, the cone penetration resistance value measured by the cone penetration tester is similar to the cone penetration resistance value of the perforated plate 110 , It is determined that it is the perforated plate 110 and the accurate settlement amount can be measured.

Here, the cone penetration tester can measure the cone penetration resistance value by inserting a cone for measuring the resistance value into the ground. Since the cone penetration tester has a well-known configuration, a detailed description is omitted.

Anchor holes 131 through which the frame 130 penetrates vertically and to which a screw anchor 150 is to be described later may be formed at the periphery of the frame 130.

2 and 3, the underwater settlement plate 100 for measuring the landfill settlement amount according to the embodiment of the present invention may include a screw anchor 150.

The screw anchor 150 can fix the perforated plate 110 to the underwater base sheet 200.

The screw anchor 150 may be fixed to the frame 130 through an anchor hole 131 of the frame 130.

The screw anchor 150 may be rotatably coupled to the anchor hole 131 and the screw anchor 150 may have a pointed shape as it goes downward so that the screw anchor 150 can be easily fixed to the underwater sheet 200, And a screw portion 151 having a threaded or spiral wing.

In addition, the screw anchor 150 may include a handle portion 153. The handle portion 153 may be provided on the screw portion 151 so that the screw portion 151 can be easily rotated.

The handle portion 153 is disposed on the upper portion of the frame 130 and may be installed to penetrate the plurality of anchor holes 131 so that only the screw portion 151 is positioned below the frame 130.

The handle portion 153 is formed in a manner that the bar is laterally coupled to the upper portion of the screw portion 151 so that the operator can easily grasp the handle portion 153 to thereby attach the screw portion 151 to the under- Can be concluded.

3 and 4, the submerged settlement plate 100 for measuring the landfill settlement amount according to the embodiment of the present invention can display the buoy 170.

The buoy table 170 is floated on the water surface and can easily grasp the position of the perforated plate 110 installed on the underwater base sheet 200.

The buoy 170 may be buoyant enough to float on the surface of the water. The buoy 170 may be divided into two spheres, and a center scale 175 may be provided at the center.

The buoy 170 may include a take-up roller 171 and a take-up spring 173.

The winding roller 171 can be wound around a graduation line 175 and can be rotatably engaged at the center of the vertically divided buoy 170.

The winding springs 173 can elastically support the winding rollers 171 in the buoy table 170 in the direction in which the scales 175 are wound.

On the other hand, the winding springs 173 can be realized by a plurality of turns of the torsion springs. Since the winding springs 173 generate elastic force in the direction in which the graduation lines 175 are wound on the winding rollers 171, The buoy 170 can be positioned in a straight line on the upper portion of the perforated plate 110 without sagging.

As shown in FIGS. 2 and 3, the underwater settlement plate 100 for measuring the landfill settlement amount according to the embodiment of the present invention may include a scale line 175.

The scale strips 175 may connect the perforated plate 110 and the buoys 170 to each other to inform the buoy 170 of the portion where the perforated plate 110 is located.

On the other hand, the graduation line 175 can be scaled so that the water depth can be easily grasped, and the graduation line 175 can be wound on the winding roller 171.

A ring 179 is provided in the hole plate 110 so that the graduation line 175 can be easily coupled to the hole plate 110 and a carabiner 177 Can be installed.

The annular groove 179 is formed in the center of the perforated plate 110 so that the annular plate 170 is positioned at the center of the perforated plate 110. In this case, And may be provided at the center of the scepter 110.

A carabiner 177 is installed on the scribe line 175 and a ring 179 is provided on the scavenging plate 110. The carabiner 177 is installed on the scavenging plate 110 and the scavenger 177 is disposed on the scribe line 175 It is also possible to provide a ring 179.

The operation and effects of the above-described respective structures will be described.

The underwater settlement plate 100 for measuring the landfill settlement amount according to the embodiment of the present invention includes a plate 110 in which a fluid flow hole 111a is formed on a top surface of a latticed frame 130, And a ring 179 is provided at the upper center of the frame. The handle part 153 of the screw anchor 150 is installed on the anchor hole 131 formed around the frame 130 so as to be positioned on the upper part.

At this time, the perforated plate 110 may be configured such that the first plate 111 and the second plate 112 are installed with the frame 130 interposed therebetween.

The underwater settlement plate 100 for measuring the landfill settlement amount has a structure in which the screw anchor 150 is fixed to the ground sheet 200 by rotating the handle 153 on the ground sheet 200 placed in the water of the landfill And the plate (110) is installed.

The scales 175 of the buoys 170 are connected to the outer circumference of the annular plate 110 at the center of the perforated plate 110 in a state where the buoys 170 are placed on the water surface so that the position of the perforated plate 110 installed in the water can be easily grasped. (179).

When the submerged settlement plate 100 for measuring the landfill settlement amount is installed in the underwater ground plate 200, the operator grasps the position of the plate 110 using the GPS in the area where the buoys 170 are located, The depth of the water depth is measured through the scale of the water table 175 to determine the position of the underwater sheet 200 in the form of grasping the underwater position of the plate 110 from the position where the buoy 170 is located.

On the other hand, the underwater settlement plate 100 for measuring the landfill settlement amount installed in the underwater ground plate 200 is settled together with the ground plate 200 when the underwater ground plate 200 is submerged by the buried load during the embedding work, The settlement amount can be measured in such a manner that the difference between the elevation of the underwater settlement plate 100 for measuring the landfill settlement amount and the difference in elevation of the underwater settlement plate 100 for detecting the landfill settlement amount is obtained.

At this time, when the cone penetration test is performed, the cone penetrates from the surface of the landfill to measure the underwater ground sheet 200 according to the cone penetration resistance value, and the cone penetration resistance value of the perforated plate 110 is measured in the landfill The difference between the cone penetration resistance and the cone penetration resistance value can be determined by grasping the position of the underwater ground board 200 in the form of grasping the position of the penetration board 110 according to the difference of the cone penetration resistance value.

Since the hole plate 110 is composed of the first plate 111 and the second plate 112, if the cone penetration resistance value can not be measured when the first plate 111 is penetrated, It is possible to grasp the exact position of the buried plate 110 by measuring the cone penetration resistance value and grasping the position.

Therefore, the underwater settlement plate 100 for measuring the landfill settlement amount according to the embodiment of the present invention can reliably and precisely set the settlement amount of the underwater base paper 200 after being embedded in the form of installing the perforated plate 110 in the underwater base paper 200 Can be measured, and it is structurally simple, which can reduce the manufacturing cost.

In addition, by measuring the settlement amount of the paperboard by the marine landfill construction, quantification of the dredging landfill amount and the consolidation characteristics of the paperboard during the landfill construction can be grasped and utilized as the initial data for landfill settlement measurement.

In addition, a plurality of fluid flow holes 111a are formed in the perforated plate 110 to minimize the resistance of the fluid, thereby preventing the perforated plate 110 from being lost due to the fluid.

In addition, since the buoy 170 is provided to easily locate the position of the perforated plate 110 installed in the underwater floor 200 from the water surface before the embedding, the scale base 175 is provided, The water depth to be located can be easily grasped and the scale line 175 can be attached to the plate 110 to facilitate the construction.

Since the scales 175 are wound around the take-up roller 171 supported by the elastic force in the buoy 170, the buoy 170 is not separated from the stencil 110 due to the tension of the scales 175 So that the accurate position of the blowing plate 110 can be grasped and the error of the water depth can be minimized.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, And all changes and modifications to the scope of the invention.

100: Underwater settlement plate 110 for measuring landfill settlement amount 110:
111: first plate 111a: fluid flow hole
112: Second Edition 130: Frame
131: Anchor ball 150: Screw anchor
151: screw portion 153: handle portion
170: Buoy 171: Wound roller
173: Winding spring 175:
177: Carabiner 179: The ring
200: Underwater paperboard

Claims (5)

As an underwater settlement plate for measuring settlement settlement amount for measuring the settling amount of underground paper in a solid landfill,
A plurality of fluid flow holes,
A frame coupled to a lower portion of the plate to prevent the plate from being twisted,
A plurality of screw anchors provided around the frame for fixing the perforated plate to the underwater cloth,
A buoy mark floating on the water surface at the center of the perforated plate and indicating the position of the perforated plate located in the water, and
And a scale line connecting the buoy plate and the plate to form a scale for measuring the water depth from the water surface to the underwater surface,
And a carabiner coupled to the other one of the ring and the scribe line so as to easily detach the scribe line from the stencil plate. delete The method according to claim 1,
The screw anchor
A screw portion projecting to the lower portion of the frame and fixed to the underwater cloth,
And a handle portion protruding from the upper portion of the frame for rotating and fixing the screw portion to the underwater base paper. The method according to claim 1,
The buoy
A winding roller for winding the graduation line, and
And a winding spring for supporting the winding roller so that the graduation line is pulled by an elastic force in a direction in which the graduation line is wound on the winding roller. The method according to claim 1,
The above-
A first plate covering an upper surface of the frame,
And a second plate covering the lower surface of the frame.

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