KR100630303B1 - Structure for pumping water out of soft ground - Google Patents

Abstract

A road banking unit compacting structure is provided to automatically discharge underground water remaining in a soft ground, to prevent the road on the soft ground from sinking down, and to improve quality of the soft ground. A road banking unit compacting structure comprises a sand wedge inserted into a hole bored on a soft ground; a floor mat settled on the upper surface of the sand wedge and made of a fiber material; a sand mat formed on the upper surface of the floor mat by pouring sand to a certain thickness; a banking layer formed on the upper surface of the sand mat by pouring soil; and a filter member installed together with the sand wedge inside to a depth of the hole formed on the soft ground to drain underground water in the soft ground to the floor mat and the sand mat through the sand wedge and a perforation pipe(140). The filter member is composed of a disc main plate(110) formed with a main combining pipe(112) having a screw thread on the outer peripheral surface, and plural auxiliary combining pipes(114) radially formed around the main combining pipe; the perforation pipe formed with a screw thread at the inner side of both ends to be screw-combined with the main combining pipe of the main plate and plural through-holes(142) on the outer peripheral surface; a fiber filter rod(130) inserted into the auxiliary combining pipe; and a connecting member(120) formed with the main combining pipe and the auxiliary combining pipe at the upper and lower surfaces to attach distal ends of the fiber filter rod and the perforation pipe in elongating the fiber filter rod and the perforation pipe.

Description

Road compaction structure {STRUCTURE FOR PUMPING WATER OUT OF SOFT GROUND}

1 is a view schematically showing a structure of a sand pile provided in a general deductive ground.

2 is a perspective view schematically showing the structure of a filter member embedded in a soft ground according to the present invention.

Figure 3 is an exploded perspective view schematically showing the structure of the filter member embedded in the soft ground according to the present invention.

4 is a cross-sectional view schematically showing the structure of the filter member embedded in the soft ground according to the present invention.

※ Explanation of symbols about main part of drawing ※

100: filter member 110: main plate

112: main coupling pipe 114: auxiliary coupling pipe

120: connecting member 122: central coupling pipe

124: fiber filter rod coupling pipe 126: support

130: fiber filter rod 140: perforated pipe

142: through hole 200: floor mat

300: sand mat 400: fill layer

500: sand pile

The present invention relates to a vertical drainage structure for the foundation of soft ground for compacting roads, and more specifically, it is possible to automatically discharge groundwater remaining in the ground of the soft ground, The present invention relates to a compaction structure of a road fill site for foundation improvement of soft ground to prevent problems such as settlement.

In general, when roads are constructed in soft ground, the soil condition of the soft ground is high because the water content is high, so the water contained in the soft ground is drained for a long time to install the structure on the soft ground. Therefore, most of the construction is performed after consolidation and improvement of the soft ground.

Conventional techniques for improving the soft ground include a sand drain method and a paper drain method. The paper drain method described above is briefly described. By installing a vibration hammer (VIBRATION HAMMER) which is moved downward, press the casing into which the drain paper is inserted to a predetermined depth by the vibration of the vibration hammer, and then raise the casing to bury the drain paper deep underground.

When the sand drain method for improving the soft ground is described, the sand drain method for improving the soft ground is improved by using a sand pile as a drainage material. After laying the floor mat so as to be used as the order layer of the through, the bottom mat is installed in the top of the soft ground and perforated a plurality of holes at regular intervals to form sand piles filled with sand in the perforated holes In addition, a sand mat having sand with a predetermined thickness is formed on an upper portion of the floor mat on which the sand pile is formed.

The sand mat is formed on the top of the sand mat to form a fill layer laminated to a certain height to drain the water contained in the soft ground through the sand pile and sand mat.

At this time, when the soil mat is formed in the upper state simply by laying sand, the road is constructed at the top of the soil layer, whereby the earthwork load of the soil layer and the weight of the road as it is on the ground As a result, the bearing capacity of the ground becomes weak, so that an uneven settlement of the floor mat, the sand mat, and the fill layer occurs.

In addition, due to the phenomenon of uneven settlement, water is accumulated due to the filling of the middle part, and the groundwater and the rainwater located in the upper part of the sand mat are not smoothly drained due to the inability to drain. In the region, rainwater and groundwater treatment are not performed smoothly, causing a lot of problems, such as the settlement of the soft ground as a whole.

1 is a view schematically showing a structure of a sand pile provided in a general deductive ground, which will be described with reference to FIG. 1, in order to form a sand pile 20 in the soft ground 10 to have a predetermined depth. The sand pile 20 is then formed by filling sand in the perforated holes. Sand mat 30 is formed on the upper surface of the sand pile 20 by laying sand at a predetermined thickness. On the upper surface of the sand mat (30) by forming a soil layer (40) by stacking the soil to a certain height, the groundwater contained in the basement of the soft ground through the sand pile 20 and the sand mat (30) sand pile (20) ) And the sand mat 30 is drained to the outside of the soft ground. If the groundwater in the ground of the soft ground is not quickly drained through the sand mat 30, there is a problem that the ground is settled.

The present invention has been made to solve the above problems, an object of the present invention is to automatically discharge the groundwater remaining in the ground of the soft ground, and to prevent the problems such as settlement of roads constructed on the soft ground to the maximum It is to provide a compaction structure for road fills for foundation improvement of soft ground.

In order to achieve the above object, the present invention forms a sand pile in the hole formed by drilling the deductive ground, and install a floor mat made of a fiber material on the upper surface of the sand pile, sand on the upper surface of the floor mat to a predetermined thickness In the vertical drainage structure for the foundation of soft ground for laying the ground layer by laying soil on the upper surface of the sand mat to form a sand layer, the hole formed in the soft ground to form the sand pile A filter member having a length corresponding to the depth of the filter is embedded with sand, and the groundwater existing in the basement of the soft ground is discharged to the floor mat and the sand mat layer through a filter member consisting of a perforated pipe and a plurality of fiber filter rods, and drained to the outside. It provides a road fill portion compaction structure, characterized in that.

The filter member includes a main coupling tube having a screw thread formed on its outer circumference at the center thereof, and having a plurality of auxiliary coupling tubes radially variable with respect to the main coupling tube; Perforated pipes are formed in both ends of the screw thread is coupled to the main coupling pipe of the main plate and a plurality of through-holes are formed on the outer peripheral surface; A fiber filter rod inserted into the auxiliary coupling tube provided in the variable portion of the main plate around the perforated tube; In addition, when the fiber filter rod and the perforated pipe is to be formed long, it provides a road fill compaction structure consisting of a connecting member formed on the upper and lower surfaces of the main coupling pipe and the auxiliary coupling pipe so that the ends of the fiber filter rod and the perforated pipe are installed. .

According to the present invention, in order to construct a road on the soft ground, the soft ground is excavated, and then a floor mat is laid, and a plurality of holes penetrating the floor mat are formed by drilling. The hole is a filter member consisting of a fiber filter rod and a hole pipe, and then sand is filled with the filter member. By filling the sand with the filter member in the hole, the groundwater in the basement of the soft ground rises through the sand and the filter member, and the groundwater raised through the filter member and the sand is transferred to the outside through the sand mat and the bottom mat. By being drained, groundwater remaining in the basement of the soft ground is quickly drained to the outside to prevent settlement of the soft ground.

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

Figure 2 is a perspective view schematically showing the structure of the filter member embedded in the soft ground according to the present invention, Figure 3 is an exploded perspective view schematically showing the structure of the filter member embedded in the soft ground according to the present invention, Figure 4 A cross-sectional view schematically showing the structure of a filter member embedded in a soft ground according to the present invention.

Referring to Figures 2 to 4, in order to build a road on the soft ground to pit to a certain depth after laying the bottom mat 200 of a fiber material having a predetermined thickness on top of the soft ground pitted. After the floor mat 200 is laid, a plurality of holes are formed to discharge groundwater remaining in the basement of the soft ground through the bottom mat 200 installed on the soft ground.

The sand is filled in the hole to form the sand pile 500 to discharge the groundwater by allowing the groundwater to rise upward through the sand pile 500. At this time, the filter member 100 is inserted into the hole before the sand is filled in the hole.

The filter member 100 is composed of one perforated tube 140 and a plurality of fiber filter rod 130. The hole tube 140 is located in the center and the fiber filter rod 130 is coupled to be located around the periphery. The main plate 110 coupled to the upper end of the hole tube 140 and the fiber filter rod 130 has a round shape, and the main coupling tube 112 is provided at the center of the bottom surface of the main plate 110. A plurality of auxiliary coupling pipe 114 is provided so as to be positioned around the main coupling pipe 112. The main coupling pipe 112 is formed with a screw thread on the outer circumferential surface, the screw thread is provided on the inner surface of the upper end of the perforated tube 140 coupled to the main coupling pipe 112 is screwed together. The fiber filter rod 130 is coupled to the inner hole of the auxiliary coupling tube 114. The main coupling pipe 112 and the auxiliary coupling pipe 114 is penetrated, the main coupling pipe 112 and the auxiliary coupling pipe 114 extends from the upper surface of the main plate 110 to the upper surface to protrude. Have In addition, the hole pipe 140 is coupled to the main coupling pipe 112 has a pipe shape is formed with a plurality of through holes 142 on the outer circumferential surface, the top end of the main coupling pipe 112 is a stopper made of sponge material ( 144 is inserted to prevent the sand from entering the interior of the hole tube 140 through the upper end of the auxiliary coupling tube (114).

The lower end of the hole tube 140 and the fiber filter rod 130 is coupled to the same as the main plate 110 coupled to the upper end. The connection member 120 is coupled in the middle to further extend the hole tube 140 and the fiber filter rod 130. The connecting member 120 is used as a connecting material in the middle when the fiber filter rod 130 and the hole tube 140 to be formed long. The pipe-shaped central coupling pipe 122 to which the hole tube 140 is coupled is located at the center of the connecting member 120, and a plurality of supports 126 are radially horizontally disposed on the outer surface of the central coupling pipe 122. Installed, the end of the support 126 is provided with a fiber filter rod coupling pipe 124 to which the fiber filter rod 130 is coupled. The center coupling tube 122 and the fiber filter rod coupling tube 124 respectively provided at the center and the variable portion of the connection member 120 have a penetrated pipe shape, and the center coupling tube 122 and the fiber filter rod coupling Both ends of the pipe 124, the hole pipe 140 and the fiber filter rod 130 is coupled. A screw thread is formed on the outer circumferential surface of the center coupling pipe 122 to be screwed with the hole tube 140.

The main plate 110 and the connection member 120 coupled to both ends of the hole tube 140 and the filter member 100 are firmly coupled to the hole tube 140 and the filter member 100, and connected to the connection member 120. The fiber filter rod coupling tube 124 and the auxiliary coupling tube 114 of the main plate 110 are formed at the same position to correspond to each other.

The filter member 100 having the oil pipe 140 and the filter member 100 formed long through the connecting member 120 is inserted into a hole formed in the soft ground. After the filter member 100 is inserted into the hole, sand is filled in the hole. When the filter member 100 is inserted into the hole and the sand is filled in the hole, the sand mat 300 is formed on the top surface of the bottom mat 200 to a predetermined thickness, and is formed on the top surface of the sand mat 300. A fill layer 400 is formed by depositing soil. A road or road is built on the top surface of the fill layer 400. Underground water in the basement of the soft ground through the filter member 100 is raised to the top along the filter member 100, the groundwater rising to the top of the filter member 100 through the sand mat (300) By draining to the groundwater generated in the basement of the soft ground quickly drained to the outside to prevent the soft ground is settled by the groundwater.

As can be seen from the above description, the present invention is to excavate the soft ground in order to build the road on the soft ground, then laying the floor mat, and to form a plurality of holes through the bottom mat. The hole is a filter member consisting of a fiber filter rod and a hole pipe, and then sand is filled with the filter member. By filling the sand with the filter member in the hole, the groundwater in the basement of the soft ground rises through the sand and the filter member, and the groundwater raised through the filter member and the sand is transferred to the outside through the sand mat and the bottom mat. By being drained, groundwater remaining in the basement of the soft ground is quickly drained to the outside to prevent settlement of the soft ground.

Claims (2)

A sand pile is formed in the hole formed by drilling the deductive ground, and a bottom mat made of fiber material is installed on the top surface of the sand pile, sand is formed on the top surface of the bottom mat by a certain thickness to form a sand mat. Soil is laid on the upper surface to form fill layer, The hole formed in the soft ground to form the sand pile is installed so that the filter member having a length corresponding to the depth of the hole is embedded with the sand pile, and the groundwater existing in the soft ground has a bottom mat through the sand pile and the perforated pipe. In the road fill portion compacting structure is discharged to the outside and discharged to the sand mat layer, The filter member, A main plate of a disk-shaped main plate having a screw thread formed on its outer circumference and having a plurality of auxiliary coupling pipes radially variable with respect to the main coupling pipe; Perforated pipes are threaded inside both ends to be screwed to the main coupling pipe of the main plate and a plurality of through-holes are formed on the outer peripheral surface, A fiber filter rod inserted into the auxiliary coupling pipe provided in the variable part of the main plate, And when the fiber filter rod and the perforated pipe extending in the longitudinal direction, the road fill section characterized in that the main coupling pipe and the auxiliary coupling pipe is composed of a connecting member formed on the upper and lower surfaces so that the ends of the fiber filter rod and the perforated pipe are installed Compaction structure. delete

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