KR200239546Y1 - A structure of protection from water - Google Patents

Abstract

The present invention relates to the structure of the underwater tent using geotextiles and tarpaulin sheets, and more specifically, to prevent the loss of soil in the soil silt installed during the construction of bridges, so that there is no concern about water pollution and the construction is simple. It relates to the structure of the underwater tent using a geotextile and tarpaulin sheet having a.

The present invention is installed in the sediment cladding to install the degree mat inside the middle part during the construction and the sand mat at the bottom of the order mat is fixed to the underwater excavation line so that the order mat does not flow, the order mat is geotextile Formed by combining with the tarpaulin sheet is installed on the side of the river, the sand bar is provided with a plurality of sand bar connecting ropes in close contact with the outer circumferential surface and the connecting rod is formed on one side of the sand bar connecting rope, the order mat There is fixed to the connecting ring formed on the outer circumferential surface of the sand bar by using a connecting strap fixed to the bottom, the sand bar to form a nozzle joint at one end of the sand bar to extend the sand bar in the longitudinal direction and the slope of the slope Geotextiles and tarpaulin sheets are installed to prevent the loss of earth and sand by constructing a sand protector on the side. An aqueous underwater temporary film provides a structure.

Description

Underwater façade structure using geotextiles and tarpaulin sheet {A structure of protection from water}

The present invention relates to the structure of the underwater tent using geotextiles and tarpaulin sheets, and more specifically, to prevent the loss of soil in the soil silt installed during the construction of bridges, so that there is no concern about water pollution and the construction is simple. It relates to the structure of the underwater tent using a geotextile and tarpaulin sheet having a.

In general, in order to perform a bridge construction crossing the river, an underwater clam is installed. The underwater clam structure is constructed using a dredged soil and a steel pile.

1 is a conceptual view for explaining a conventional general underwater clam structure, by installing a soil sediment barrier (10) to form an underwater clam structure, the soil façade (10) is constructed by using only soil sand To form.

The above-mentioned underwater temporary seal structure has a problem of causing water pollution because frequent sedimentation of the temporary soil seal film due to the flow rate occurs due to the formation of the temporary seal structure using only the soil retaining layer.

In addition, in the case of constructing the temporary clam structure using the steel file, the demolition work takes a lot of time and has a problem of enormous budget.

The present invention has been made to solve the above problems, the present invention, while installing the order mat made of geotextiles and tarpaulin sheet in the middle of the earthenware cladding constructed using the earth and sand By installing a sand protection surface on the slope of the side where the river is located, the river does not flow to the side of constructing the concrete structure, and also prevents the loss of soil from the sediment barrier, thereby preventing the water pollution. It is an object of the present invention to provide a submerged temporary film structure using geotextiles and tarpaulin sheets having a structure of easy dismantling of the structure and low cost of installation and dismantling.

The present invention, in order to achieve the above object, the present invention, in the underwater clamshell structure to install a soil cover for building a concrete structure in a place such as steel, the earthwork cover is ordered inside the middle part during construction A mat is installed and a sand bar is installed at the bottom of the order mat to fix it to an underwater excavation line so that the order mat does not flow. The order mat is formed by combining geotextiles and tarpaulin sheets to be installed on the side of the river. The sand bar is provided with a plurality of connection rods connected to the outer circumferential surface of the sand rod, and the connection rod is formed on one side of the sand rod connection rope, the order mat is connected to the outer circumferential surface of the sand bar by using a connection strap fixed to the bottom Fixing the formed connection ring, the sand rod in the longitudinal direction by forming a nozzle joint at one end It extends the rod and the seismic façade provides an underwater façade structure using geotextiles and tarpaulin sheet installed to prevent the loss of the earth and sand by constructing a legal guard sand mound to the side of the slope.

1 is a conceptual diagram for explaining a conventional general underwater clam structure.

Figure 2 is a view for explaining the underwater clamshell structure of the present invention.

Figure 3 is a view showing the order mat used in the underwater cladding structure of the present invention.

Figure 4 is a view showing a sand bar structure used in the underwater tentacle structure of the present invention.

Figure 5 is a view for explaining a state in which the underwater clam structure of the present invention is constructed.

<Brief description of symbols for the main parts of the drawings>

30: earth and sand faucet 32: degree mat

34: sand bar 36: sand bar connecting rope

38: connecting ring 40: connecting string

42: nozzle joint 44: geotextile

46: tarpaulin sheet 48: sand protection

50: concrete structure

Hereinafter, with reference to the accompanying drawings will be described the configuration and operation state of the present invention.

2 is a view for explaining the structure of the underwater cladding according to the present invention, the earthenware cladding 30 to install the order mat 32 on the inner side during construction, and then to finish the dredged soil to install the earthenware cladding 30 do.

The order mat 32 has a sand bar 34 at the bottom thereof to fix the order mat 32 so as not to flow.

3 is a view showing the order mat used in the underwater tent film structure of the present invention, Figure 4 is a view showing the sand bar structure used in the underwater tent film structure of the present invention.

As can be seen in Figure 3, the order mat 32 is made of geosynthetic fibers, the order mat 32 is extended to a special sewing machine, the order mat 32 is connected to the bottom fixed to the tie The sand bar connection rope 36 formed on the outer circumferential surface of the sand bar 34 is fixed by using 40.

The order mat 32 is formed by combining the geotextile 44 and the tarpaulin sheet 46.

As can be seen in Figure 4, the sand bar 34 is provided with a plurality of sand bar connecting rope 36 in close contact with the outer peripheral surface, the sand bar connecting rope 36 is formed with a connecting ring 38 on one side And the sand rods 34 to form a nozzle joint 42 on one side end to extend the sand rods 34 in the longitudinal direction.

5 is a view for explaining a state in which the underwater cladding structure of the present invention is constructed, when the earth-fake 30 is constructed, the order mat 32 is installed in the middle portion, the order mat 32 ) Is coupled to the bottom of the sand bar 34, the order mat 32 is fixed without shaking by the sand bar 34, and the earth and sand cover 30 to the upper portion of the order mat 32 by pressing tosa Complete

In the method of installing the order mat 32, when the sand bar 34 formed in the lower part of the order mat 32 is submerged in water, the order mat 32 is slid into the water together. ) To form the earth and sand barriers (30) stacked on the top to secure the order mat (32).

The soil protection cladding (30) to prevent the loss of the earth and sand by constructing the surface protection sand spigot 48 on the inclined river side, and the concrete structure (50) on the opposite side of the river side relative to the soil cover (30) Install.

When the concrete structure 50 is completed, an internal flushing operation is performed to pump water between the concrete structure 50 and the soil cover 30.

As can be seen in the above-described configuration, the earthwork temporary barrier 30 is provided with the order mat 32 made of the geosynthetic fiber 44 and the tarpaulin sheet 46, in particular in the order mat 32 at the bottom Since the sand bar 34 is formed and installed in the underwater excavation line (parts indicated by the dotted lines), it is possible to prevent the loss of the earth and sand of the soil cover 30 as much as possible and to prevent the river from flowing into the internal drainage side. Since the soil protection sand lap 48 is laminated on the inclined surface on the river side, the concrete structure 50 can be constructed in a state capable of preventing the loss of the soil used as the pressed soil to the maximum. .

The effect according to the configuration and operation state of the present invention described above.

The underwater cladding structure using the geosynthetic fiber and tarpaulin sheet of the present invention, when constructing the earthquake temporary cladding, installs the order mat made of the geotextile and tarpaulin sheet between the same, In the case of constructing a concrete structure, a sand bar having a heavy weight is formed at the bottom and installed in an underwater excavation line (marked with dotted lines) to prevent the river water flowing through the sediment barrier to the concrete structure as much as possible. It has an effect that can be constructed in a state of less obstacles, and also to prevent the loss of soil of the soil cover used as the pressurized sand because the sand protection layer is laminated on the slope of the river side. Has the effect to prevent water pollution caused by soil loss.

In addition, the underwater cladding structure can obtain the effect of providing the underwater cladding at low cost in the construction site of the bridge.

Claims (1)

In the underwater cladding structure for installing a soil cover in order to build a concrete structure in a place such as a river, the soil cover 30 is installed in the order mat 32 inside the middle portion during construction and the order mat 32 ) Is installed at the bottom of the sand bar 34 is fixed to the excavation line so that the order mat 32 does not flow, the order mat 32 is the geotextile 44 and the tarpaulin sheet 46 to combine Formed and installed on the side of the river, the sand bar 34 is provided with a plurality of sand bar connecting rope 36 in close contact with the outer circumferential surface and the connection ring 38 on one side to the sand bar connecting rope 36 It is formed, the order mat 32 is fixed to the connecting ring (38) formed on the outer circumferential surface of the sand bar (34) by using a connecting strap 40 fixed at the bottom, the one end of the sand bar (34) The nozzle seam 42 on the sand in the longitudinal direction Extended 34 and the heat of the earth and sand film 30 has a film structure of the heat of the water with the inclined slopes river sand protection Sack 48 is constructed by installing a civil to prevent loss of soil and the fiber toward the tarpaulin sheet.