KR100515971B1 - Soil retaining method using H-pile having large section - Google Patents

Abstract

The present invention relates to a mud-blocking method for preventing soil from flowing down or ground collapse when performing underground excavation or clogging, road expansion, etc. in civil engineering, and using a thumb pile having a large cross section. By greatly improving the stiffness of the thumb pile, by inserting the front and rear double inserts into which the thumb pile is inserted, inserting the thumb pile having a large cross-section and curing the cement,

Due to the large size of the thumb piles, the rigidity and bending moment of the thumb piles can be greatly improved, so that the upper and lower gaps of the support beams can be formed more widely. Therefore, the construction performance is greatly improved, and the construction period is markedly shortened and the construction cost is also greatly saved. It is about earthen construction method using large section thumb pile to increase vertical distance of brace.

Description

Soil retaining method using H-pile having large section}

The present invention relates to a mud-blocking method for preventing soil from flowing down or the ground collapse when performing underground excavation or clogging, road expansion, etc. in civil engineering, and in particular, the thumb pile used in the mudstone method It is applied to the thumb pile having a large cross section, and the perforations into which these large cross section piles are inserted are subjected to double and double perforations of the same diameter to cure cement, thereby maximizing the rigidity of the thumb pile and greatly widening the vertical spacing of the brace. It is an earthquake construction method using a large section thumb pile that can greatly improve and save construction costs.

Existing earthquake construction is divided into a concrete permanent earthquake that is integrally formed on the earth wall or rock wall, and a temporary earthquake project that is installed to prevent the earth wall or rock wall from collapsing only during excavation work and then dismantled after completion of construction.

In general, during construction of temporary mudstones, the thumb piles are erected vertically at random intervals, and a plurality of earth plates are stacked between the flanges of neighboring thumb piles to support the soil wall or rock wall and at the same time to fix the thumb piles to the wall. A large number of struts crossing the thumb pile between the wall and the wall was installed, or the earth anchor was fixed to the ground, and it was firmly fixed to the thumb pile by a bracket and constructed to withstand the earth pressure.

That is, a plurality of thumb piles are vertically placed at regular intervals around the ground to be excavated, and a plurality of braces that connect and support the vertical thumb piles facing each other are excavated in sequence from the upper side at the same time To install.

The buttress is to effectively support the earth pressure acting on the thumb pile to prevent the excavated earth wall to melt or collapse,

Soil pressure of a considerable pressure is applied to the earth plate stacked up and down between the adjacent thumb piles, so that a support for maintaining the gap between the upper and lower layers of about 2 to 3 m is to be formed to enable stable support from such earth pressure.

In addition, although the number of the braces is different depending on the size of the work site, it is common that a relatively large number of braces in the form of a planar sagittal net is installed horizontally and staggered horizontally.

However, in this excavation part formed with a multi-level brace having a spacing of 2 to 3m at regular intervals up and down, the construction is constructed by sequentially placing upwards from the base floor and the lowest basement floor by concrete framework. Is constructed with a height of about 4 ~ 4.5m bar, it is not possible to construct one layer having a height of 4 ~ 4.5m at a time by a brace that is installed with a spacing of 2 ~ 3m as described above Is there.

Therefore, in order to construct one floor, first construct a strata with a height of 2 to 3 m, wait for the concrete to be cured completely, and then disassemble all the braces located at the upper part of the cured strata again for about 2 to 3 m. It is necessary to construct the strata with the height of, and wait for these strata to be completely cured, and then again dismantle the upper brace and completely cure the strata of 2-3m.

Therefore, the above-described conventional temporary earthquake construction method does not cure one layer at a time due to the limited up and down intervals of the limited brace, and it is repeatedly applied only for about 2 to 3 m, so that the construction is spaced at intervals of 2 to 3 m by the interval of such braces. Since this occurs continuously, many construction problems such as structural weakness and waterproofing of the building caused by a number of construction joints are causing a lot of problems, which is a direct cause of air delay.

If you want to avoid such a hassle, that is, if you want to install one layer at a time, the upper and lower intervals of the above-mentioned braces should be secured about 5-6m, so the size of the thumb pile is significantly larger, thereby increasing the size of the thumb. The pile is increasing the stress sustained from the earth pressure, but this construction method has to form a large diameter for drilling the thumb piles, which is also a very uneconomical construction due to the increase in construction costs.

The present invention has been made to eliminate the problems as described above, using the thumb pile having a large cross-section to greatly improve the stiffness of the thumb pile, forming a perforated insert into which the thumb pile is inserted before and after double having a large cross section By inserting the thumb pile and curing it,

Due to the large size of the thumb piles, the rigidity and bending moment of the thumb piles can be greatly improved, so that the upper and lower gaps of the support beams can be formed more widely. It is an object of the present invention to provide a clogging method using a large cross-section thumb pile to increase the vertical spacing.

Hereinafter, preferred embodiments of the present invention will be described.

1a to 1d is a process chart showing the step-by-step construction process according to the present invention.

Construction method according to the invention,

An insertion hole drilling process for drilling a continuous insertion hole in a destination panel on which an earth block is to be installed;

A pile hole drilling process for drilling a pile of holes having the same diameter at a predetermined interval on the rear side of the drilled insertion hole,

A thumb pile insertion step of inserting a thumb pile having a large cross-section into a perforation in which the insertion hole and the pile hole are continuously formed;

Cement grouting process for filling the cement into the insertion hole and pile hole inserted into the thumb pile,

As the curing step of the cement,

When the cement is completely cured, it is necessary to perform the underground excavation work of the destination panel for civil works as in the conventional method, and when the underground excavation is completed, various buildings and structures may be constructed.

In addition, the above-mentioned large cross-section piles may use an H-pile having an aspect ratio of 2: 1 or 3: 1 on a flat cross section, or may overlap two H-piles having a 1: 1 or 3: 2 aspect ratio on a flat cross section. The flange portion of the H-pile is inserted through the fixing bolt in which the separation pipe is inserted into the outer circumferential surface of the fixing bolt end is to be firmly fixed by the nut.

When explaining the process-specific description of the above-mentioned earth retaining method in more detail by the accompanying drawings as follows.

First, as shown in Fig. 1a, the pile insertion hole (1) (1 ') for successively puncture the ground rim construction on the rim of the ground to be carried out civil engineering work, and the pile insertion hole (1) (1) ') Is to drill a pile hole (2) (2') of the same diameter spaced at a predetermined interval as shown in Figure 1b.

Here, the insertion hole (1) (1 ') is to open the neighboring insertion hole (1) (1'), so that the cement that is cured therein to form a wall.

In addition, the above-mentioned pile holes (2) and 2 'do not use ordinary piles, but have the same diameter on the rear side of the continuous insertion holes (1) and (1') as auxiliary holes for inserting piles having a large cross section. The pile holes (2) and 2 'are spaced at regular intervals so that sufficient insertion space is secured by the front and rear insertion holes (1) (1') and the pile holes (2) (2 '), so that the pile has a large cross section. You will be able to insert

In this way, the insertion hole (1) (1 ') and the pile hole (2) (2') in the state of being continuously drilled, respectively, the insertion hole at the position where the pile hole (2) (2 ') is formed as shown in Figure 1c (1) (1 ') inserts a large pile of thumb piles (3) and (3'), wherein the thumb piles (3) and (3 ') have a planar aspect ratio of 2: 1 or 3: 1. By taking the rectangular shape of the degree, the cross-sectional secondary moment of at least 8 times to 27 times as much as compared to the conventional thumb pile having a 1: 1 aspect ratio is to support the earth pressure more effectively.

That is, conventionally, in order to improve the bearing capacity of the wall according to the earth pressure, insert the general thumb pile into the above-mentioned normal insertion hole and cement curing, and after the completion of the underground excavation work, continuous brace having a small spacing interval up and down To compensate for the inadequate bearing capacity from the thumb pile by using a fixed coupling, or by using a large thumb pile having an aspect ratio of 1: 1 on the flat cross-section to improve the earth pressure bearing capacity by a large thumb pile with an increased cross-sectional secondary moment,

The earth pressure support by the bracing beam should be installed continuously in small intervals, so when the construction of the order is not possible to construct one layer at a time, construction joints occur between each floor, so problems of waterproofing and soundproofing are serious. In the case of using the thumb pile, the thumb pile insertion hole must be drilled in a large size. Therefore, such a large insertion hole requires not only the drilling equipment in a larger size, but also a considerable delay in the drilling time, resulting in an increase in the construction cost and a delay in the construction period. There is a problem.

Therefore, in the present invention, in order to eliminate the problems as described above, by drilling the back and forth communication between the insertion hole (1) (1 ') and the pile hole (2) (2') having the same diameter, that is, small diameter, By applying a thumb pile with an aspect ratio of 2: 1 or 3: 1, it is possible to secure the same earth pressure bearing capacity as in the prior art, and to significantly reduce the construction cost and the construction period.

When the pile (3) (3 ') is inserted into the above-described insertion hole (1) (1') and the pile hole (2) (2 ') to the cement (4) to cure and firm and stable The wall is completed.

When the earthquake construction is completed, the excavation work is performed by excavating a civil engineering point inside the earthquake wall in the same manner as usual, and while the underground excavation work is carried out, the thumb pile (3) (3 ') is conventionally used. The excavation process is performed while fixing the brace (4) (4 ') having a much wider vertical gap.

In other words, the earthquake construction method according to the present invention was formed using the thumb pile (3) (3 ') having a relatively large cross-section wall, so the earth pressure bearing capacity is significantly improved, so the brace that is installed during the construction of the underground digging (4) The upper and lower intervals of the 4 'can be sufficiently secured, and the support beams 4 and 4' can be installed at intervals enough to construct a single layer.

Therefore, it is possible to perform more robust and stable civil engineering work without problems such as waterproofing and soundproofing due to construction joints.

That is, as shown in Figures 2a and 2b in the prior art, the insertion hole formed continuously only in the transverse direction and the thumb pile inserted into the insertion hole is cement cured to complete the earth wall, but in the present invention, the upper and lower double insertion holes and pile holes Because it is formed, it is possible to use large section thumb piles with an aspect ratio of 2: 1.

Such a large cross-section of the pile is a reinforcement interval having a separation height enough to construct a single layer, unlike the conventional reinforcement spacing having a small separation height, as shown in the prior art of Figure 3a and the present invention of Figure 3b It will be possible to secure a more stable structure without any problems due to the order joint.

In addition, the construction speed is also greatly improved, which can shorten the construction period.

Here, the thumb pile (3) (3 ') having a large cross section can be any shape using a pile having an aspect ratio of 2: 1 or 3: 1 on a flat cross section, but in general, the longitudinal dimension of 600mmx200mm or 600mmx300mm It is most preferable to use an H-file,

As shown in FIGS. 4A and 4B, the most common H-pile having an aspect ratio of 1: 1 or 3: 2 on a planar cross section may be used in combination, and the size of the file is 300 mm × 300 mm or 300 mm × 200 mm.

When the two files are to be used in combination, the flanges of the respective piles are combined by separate fixing bolts 5 and nuts 6, but the fixing bolts 5 have separate separation pipes 7 ) Should be combined with the

The separation pipe (7) is a process of removing the thumb pile (3) (3 ') after completion of the underground construction in the state of the thumb pile (3) (3') of the shape as described above cement curing In order to prevent the fixing bolt (5) is fixed by the cement, proceed to the underground construction sequentially while removing the fixed bolt (5) by rotating the thumb pile after the thumb pile without any obstacle during the removal process (3) (3 ') is drawn out.

That is, the nut 6 and the separation pipe 7 remain in the cured cement, and only the thumb pile is pulled out.

Therefore, a thumb pile having an aspect ratio of 2: 1 or 3: 1 on a planar cross-section is used, and the thumb pile may be a pile of one body integrally formed or a combination of small size piles. .

Therefore, it is possible to complete a faster and more stable structure by the above-described earth barrier construction, it is possible to reduce the construction cost as well as significantly shorten the construction period.

As described above, according to the present invention, the masonry method using the large-sized thumb pile to increase the vertical spacing of the brace is greatly improved the rigidity and the bending moment of the thumb pile by the thumb pile of the large cross-section, so that the vertical gap of the brace can be wider. Therefore, the construction is greatly improved, as well as a significant reduction in construction period and construction costs are also greatly saved.

Figure 1a to 1d is a construction process diagram of the present earthenware construction method,

Figure 1a is a cross-sectional view of the state punched

Figure 1b is a cross-sectional view of the drilled state of the pile for inserting a large cross-section pile

Figure 1c is a cross-sectional view of a state where the large cross-sectional thumb pile inserted into the perforated destination

Figure 1d is a cross-sectional view of the cement grout curing state in the pile ball inserted into a large cross-section pile

2A and 2B are comparative plan views of the clogging method;

Figure 2a is a plan view of a part of the conventional retaining method

2b is a plan view of a part of the earth retaining method according to the present invention

Figure 3a and 3b is a side cross-sectional view showing a brace installation state by the earth retaining method,

Figure 3a is a cross-sectional view of the bracing installation by the conventional earthquake method

Figure 3b is a cross-sectional view of the brace mounting method according to the present invention earth clogging method

4a and 4b is another embodiment of a large cross-section pile according to the present invention,

Figure 4a is an exploded perspective view of a large cross-section pile

Figure 4b is a flat section cross-sectional view of the large pile thumb piles

Explanation of symbols on main parts of drawing

1,1 ': Insertion hole 2,2': File hole

3,3 ': Thumb pile 4,4': Brace

5: fixing bolt 6: nut

7: separation pipe

Claims (5)

An insertion hole drilling process for drilling a continuous insertion hole in a destination panel on which an earth block is to be installed; A pile hole drilling process for drilling a pile of holes having the same diameter at a predetermined interval on the rear side of the drilled insertion hole, A thumb pile insertion step of inserting a thumb pile having a large cross-section into a perforation in which the insertion hole and the pile hole are continuously formed; Cement grouting process for filling the cement into the insertion hole and pile hole inserted into the thumb pile, As the curing step of the cement, When the cement is completely cured as in the conventional method, earthwork construction method using a large-sized thumb pile to increase the vertical gap of the vertebra, characterized in that to carry out underground excavation work of the destination panel for civil works. The method of claim 1, Large-sized thumb piles, using an H-pile with an aspect ratio of 2: 1 on a flat cross section. The method of claim 1, Large-sized thumb piles, using an H-pile with an aspect ratio of 3: 1 on a flat cross section. The method of claim 1, The large pile thumb pile is used by overlapping two H-piles with an aspect ratio of 1: 1 on the flat section, but the flange part of the H-pile is inserted through the fixing bolt with the separation pipe inserted in the outer circumferential surface of the nut. The earth block construction method using a large-sized thumb pile to increase the vertical distance of the brace, characterized in that it is fixed firmly by using. The method of claim 1, The large pile pile is used by overlapping two H-piles with an aspect ratio of 3: 2 on a flat cross-section.The flange portion of the H-pile is inserted through a fixing bolt with a separation pipe inserted into an outer circumferential surface thereof, and the end of the fixing bolt is nutd. The earth block construction method using a large-sized thumb pile to increase the vertical distance of the brace, characterized in that it is fixed firmly by using.