KR200224758Y1 - Structure of caisson soil protection four concret caisson - Google Patents

Abstract

The present invention relates to the earthwork construction using the pier foundation square concrete caisson, and has an object to compensate for the excessive budget and unsafe construction, which is a problem of the provisional construction method of the conventional structure foundation work.

The present invention in the structure foundation work, the lower square iron shoe 22 is mounted on the lower end of the caisson, a concrete structure assembled with concrete reinforcement 21, the vertical reinforcement 40 is installed on the front of the caisson, The front of the vertical reinforcing material 40 is provided with a horizontal reinforcing material 41 for supporting a horizontal force, and one side of the end of the horizontal reinforcing material 41 is characterized in that the structure is equipped with an adjustment jack 42 for adjusting the compression force It is about square concrete caisson.

The square concrete caisson for earthquake can be directly used in the construction, installation and digging method in the field, it is possible to directly block groundwater outflow and soil leakage when the site is narrow or wetland area, construction is safe and simple, The equipment uses a small excavator or small clam chalsar, and the excavated earth and sand can be used for external export or backfilling to minimize environmental pollution at the construction site, and work is safe in the rainy season or during flooding.

Description

Structure of caisson soil protection four concret caisson

The present invention relates to an earthquake structure using a pier foundation square concrete caisson. Applicable to

More specifically, the dimensions and depths are measured according to the design of the construction survey, and after the bottom of the foundation trench location, the square shoes are manufactured and installed, the reinforcing bars are assembled on the square shoes, the formwork is assembled, and then concrete is poured. After dismantling the formwork and then installed an internal brace, and the bottom of the finished caisson to the rock bottom concrete concrete caisson structure applied to the construction consisting of the step of placing the concrete.

In the conventional earth retaining construction, the earth wall installation structure was used. As shown in FIG. 1, the structure is installed by driving the H-PILE with a driving machine after installing the axle diagram, and after installing the earth wall after reinforcing the strip, Rock-picking and bottom cone after watering After pouring the crete, it is cured. After assembling the reinforced formwork, the concrete is poured and cured, followed by dismantling the formwork, removing the earth wall, removing H-PILE and backfilling.

The above-described structure has a problem of difficulty in installing the earth wall into the earth and sand room during the digging work, the risk of collapse due to the rainy season during the digging work, and excessive construction cost due to the excessive input of the earth wall installation cost.

In order to solve the above problems, the present invention aims to provide a bridge-based square concrete caisson structure.

In order to achieve the above object of the present invention, in the basic construction of a structure, a lower square iron shoe is mounted at the lower end of a caisson, which is a concrete structure assembled with concrete reinforcement, a vertical reinforcement is installed at the front of the caisson, The front of the horizontal reinforcement is installed to support the horizontal force is provided on one side of the horizontal reinforcement provides a square concrete caisson earth block structure, characterized in that the structure is equipped with a control mechanism for adjusting the compression force.

1 is a conceptual view schematically showing an outline of an existing earth wall installation method.

Figure 2a is a plan view of the square concrete caisson.

Figure 2b is a side view of the square concrete caisson.

Figure 3a is a plan view schematically showing the structure of the groundwater treatment inside the square concrete caisson.

Figure 3b is a side view schematically showing the structure of the groundwater treatment inside the square concrete caisson.

Figure 4 is a detailed side view of the square concrete caisson settled to the rock bottom.

5 is a view showing a cross section of the shoe and a structure in which the connecting reinforcing bar is welded to the shoe.

Figure 6 is a view schematically showing the sequence of earthquake construction using a square concrete caisson.

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

20: square concrete caisson 21: concrete reinforcement

22: square steel shoe 30: merit pipe

31: corrugated pipe pumping pipe 32: reinforced concrete

33: Low concrete concrete 40: Vertical reinforcement

41: horizontal reinforcement material 42: adjustment jack

50: connecting bar 51: anchor welding

The present invention relates to the pier foundation square concrete caisson soil structure, which is applied to the soil foundation of bridge foundation structure, various structure foundation soils, various underground structure soils, septic tanks Is possible,

More specifically, the dimensions and depths are measured according to the design of the construction survey, and after the bottom of the foundation trench location, the square shoes are manufactured and installed, the reinforcing bars are assembled on the square shoes, the formwork is assembled, and then concrete is poured. After dismantling the formwork, and then installing the internal brace, and settles the finished caisson to the bottom of the rock relates to a square concrete caisson structure applied to the construction consisting of the step of placing the bottom concrete.

Hereinafter, a configuration and an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

As shown in the plan view of Fig. 2a and the side view of Fig. 2b, the rectangular concrete caisson 20 for the retaining wall is a rectangular concrete structure, and the fabrication procedure is 30cm above the foundation of the piers, and after the floor is selected, the shoe 22 is removed. Fabrication and installation, assembling the reinforcing bar 21 to the upper end of the shoe 22, assembling the formwork, after pouring the concrete to dismantle the formwork is produced by curing the concrete.

In addition, the groundwater treatment inside the rectangular concrete caisson 20 for the earth retaining can be seen in the plan view of FIG. 3A and the cross-sectional view of FIG. 3B, and after the concrete 32 is poured into the caisson 20, the groundwater is disposed in the bottom of the concrete plate 30. ), And groundwater is discharged through the corrugated pipe pump pipe 31, which is a water pump line connected to the ground and connected to the air hole 30.

In addition, as shown in Figure 4, the installation structure of the caisson, the lower square iron shoe 22 is mounted on the lower end of the caisson 20 is a concrete structure assembled with the concrete reinforcement 21 The vertical reinforcement 40 is installed at the front of the caisson 20, and a horizontal reinforcement 41 for supporting a horizontal force is installed in front of the vertical reinforcement 40, and one side of the horizontal reinforcement 41 is provided. Between the vertical reinforcing material 41 is a structure that is equipped with an adjustment jack 42 for adjusting the compression force.

As shown in FIG. 5, the overall fabrication including the shoe described above is performed by assembling and welding the lower square steel shoe 22, the anchor welding 51 of the connecting reinforcing bar 50, and then assembling the concrete reinforcing bar 21. The concrete pouring and curing, and then install the H beam vertical stiffener inside the square concrete caisson, and then install the horizontal stiffener.

Hereinafter, the sequence of the square concrete caisson earthquake construction is as follows.

First, select the bottom of the bridge foundation and install the square caisson soil barrier.

Secondly, the square concrete caisson structure is excavated and sedimented into the crramshall 100 using an opening, and the depth is settled to the rock bottom based on the design drawing.

Third, after cleaning the inner rock bottom and leveling, concrete is poured (33) and cured.

Fourth, after dismantling the lower horizontal beam, the foundation beam is assembled and the upper horizontal beam is demolished after the concrete is placed.

Fifth, after pouring the bridge-based concrete, curing and filling the sandstone (50) at the top proceeds in the order of finishing the bridge-based construction.

The square concrete caisson structure for the earth retainer is manufactured and installed directly on site As it is used for digging construction, it is possible to directly block groundwater leakage and sediment leakage into narrow or wetland areas, so the construction is safe and simple, and the digging equipment uses a small excavator or a small crushal, and the excavating soil is taken out Alternatively, it can be used for backfilling to minimize environmental pollution at construction sites, and the work is safe in rainy season or flooding.

Claims (1)

In the earth structure of the foundation structure, the lower square steel shoe 22 is mounted on the lower end of the caisson 20, which is a concrete structure in which the concrete reinforcement 21 is assembled, and the vertical reinforcement ( 40 is installed, in front of the vertical reinforcing material 40, a horizontal reinforcing material 41 for supporting a horizontal force is installed, the adjustment jack for adjusting the compression force between one side of the horizontal reinforcing material 41 and the vertical reinforcing material (40) Square concrete caisson retaining structure, characterized in that the structure is mounted 42.