KR100629853B1 - Soil impruvement method - Google Patents

Abstract

The present invention provides a basic ground reinforcement method using a copper substitution method for reinforcing soft ground. The method of reinforcing the foundation ground is to dig and arrange the foundation ground on the soft ground, excavate at a predetermined interval and depth on the foundation ground arranged in the trench to form a blow hole, and slag (blast furnace or steelmaking) in the blow hole. ) And spray the water (brine or fresh water), and then hit the installed slag with the center and penetrate into the ground to form the penetration column. Such a penetration column serves as a composite column utilizing the two advantages of the gravel column and the limestone column.

Description

Foundation Ground Reinforcement Method {SOIL IMPRUVEMENT METHOD}

1 is a flow chart for explaining the foundation ground reinforcement method according to a preferred embodiment of the present invention;

2A to 2E are diagrams sequentially showing examples of applying the foundation ground reinforcement method according to the preferred embodiment of the present invention to a foundation ground composed of a buried layer, a sand layer, and a clay layer.

Explanation of symbols on the main parts of the drawings

10: surface layer 20, 20 ', 20 ": buried layer

30: sand layer 40: clay layer

50: blow hole 60: penetration column

70: striking device 72: the center

The present invention relates to a foundation ground reinforcement method, and more particularly, to a foundation ground reinforcement method which is an improvement of the copper substitution method for reinforcing the foundation ground before constructing the structure on the soft ground such as waste layer, sand layer, viscous soil layer. It is about.

In order to use the soft ground such as waste layer, stone layer, sand layer, sandy soil, and viscous soil layer as the foundation ground for building foundation, tank foundation, site construction, railway, road, etc., the structure must be reinforced after strengthening the soft ground.

Republic of Korea Patent Publication No. 10-2001-0026082 "Prefilled landfilling and compaction system" landfill pre-stabilizing the inside of the landfill by diluting and discharging various gases while circulating air in the landfill, It proposes a basic ground reinforcement method to increase the stiffness of the landfill soil by compacting the ground where voids are formed, to prevent settlement, and to increase the effective landfill area so that space utilization can be efficiently used.

In addition, Korean Patent Publication No. 1996-0003748 "Construction method of compacted concrete and sand pile of viscous soft ground" forms the structure of copper compaction in top shape and cylindrical shape. Fill only the sand, gravel and sand in the inside of the top-shaped hole formed by the primary compaction, and then form the concrete pile or the sand pile while performing the secondary compaction continuously using the cylindrical weight. Basic ground reinforcement method is proposed to enhance the strength and economic feasibility of soft ground.

As described above, the related arts provide a method of reinforcing a soft foundation by applying a dynamic replacement method using dynamic compaction. This copper substitution method is a heavy pounder that strikes the ground by hitting materials such as crushed stone, sand, or gravel previously laid on the soft ground, and fills the rubble, sand, and gravel with the blow holes formed at this time. It is a method of forming. Such copper substitution method is known to be a useful method for reinforcing the basic ground of soil mainly mixed with viscous soils.

However, the conventional copper substitution method has an economic aspect because the penetration pillar is formed of sand and gravel, etc., but there is a problem that the ground strength is reduced after the foundation ground reinforcement. In other words, the penetration column is formed by mixing sand and gravel and striking with the backbone. This is a state in which the penetration pillar (substitution pillar) material is not solidified and is made of friction only. As the solids of the back are loosened, the surrounding ground and gravel or sand pillars settle down.

The present invention has been proposed to solve the conventional problems, the purpose of which is to improve the conventional substitution method for forming the penetration column with sand and gravel, etc., effectively reinforce the soft foundation ground, even after reinforcement of the foundation ground To provide a new type of foundation ground reinforcement method that can effectively prevent ground subsidence.

Meanwhile, Korean Patent Publication No. 1983-0002745 "Method for increasing the strength of functional soft soil" refers to additive A and cement 40 made from gypsum soft soil to improve the water soft soil deposited on the sea, harbor, river and lake. By adding and mixing additive B, which is a mixture of from 55% by weight to 60 to 45% by weight of blast furnace tailings having a particle size of 100 to 1 µm, the weight ratio of additive A to additive B is in the range of 10/90 to 30/70. , A method for increasing the strength of hydrous soft soil by adding additive A simultaneously with additive B is proposed. Such a method is to improve the water soft soil by mixing the additives composed of gypsum, Portland cement and blast furnace wood in a predetermined proportion to the deposited water soft soil such as seas, ports, rivers and lakes.

Although this method has improved the method of strengthening the soft ground by using reinforcing agent or hardening agent, the temporary soft ground formed by dredging the sediment is reclaimed to allow people to walk, transport vehicles, or carry in construction machinery. In order to reinforce the ground, the construction method for reinforcing the foundation ground for installing the structure is not suitable in terms of time and economy in addition to its ease.

Therefore, another object of the present invention is to provide a new type of foundation ground reinforcement method which can easily and economically strengthen the foundation ground for constructing a permanent structure on the soft ground in a relatively short time.

According to a feature of the present invention for achieving the above object, the present invention provides a method for reinforcing the ground using an improved copper substitution method for strengthening the soft ground. Breaking and arranging the foundation ground on the soft ground; Digging at predetermined intervals and depths on the excavated and arranged base ground to form a blow hole; Laying slag in the blow hole and spraying water; And hitting the laid slag with a pivot to penetrate into the ground to form a penetration pillar.

In the present invention, the sprayed water is brine, and the laid slag may be steelmaking slag.

In the present invention as described above, the brine can be obtained by placing salt on the slag laid in the blow hole and spraying water.

In the present invention, the step of compacting the foundation ground to be compacted to the intermediate point of the penetration pillar after the penetration pillar is formed; The method may further include a step of vibrating compaction with the vibration roller on the upper base layer on which the compaction is completed.

According to the present invention, when constructing a structure such as a building on a soft ground, the penetration column is blown into the ground by hitting the penetration column at a spacing (typically about 7 m) and depth (typically about 2.5 m) designed on the foundation ground. It is an improvement of the copper substitution method for reinforcing the ground, and it is characterized in that a slag is formed in the blow hole and water (brine or fresh water) is sprayed to form a penetration pillar which is subsequently solidified by an oxidation reaction.

According to the present invention, even after reinforcement of the foundation ground, the slag aggregate and aggregates are solidified by the moisture absorption of the long-term edge effectively preventing the ground subsidence due to the decrease of compressibility and the increase of shear strength over time. Done. In addition, the present invention recycles slag, which is an industrial by-product generated in the process of producing iron, so that the foundation can be easily and economically strengthened in a relatively short time to build a permanent structure on the soft ground.

Slag is a rock component remaining after iron is separated from iron ore, which is a raw material of iron, in the steel manufacturing process, and is widely recycled as cement raw material, road use, civil engineering, port construction, fertilizer and land improver. Since this slag is 100% recycled material, it can contribute to the saving of resources and energy and conservation of natural resources, and has the characteristics and stable quality that natural materials cannot have, the potential hydrophobicity, large internal friction angle, excellent fire resistance, strength and There is no deterioration in durability, and the aggregate is cheaper than general crushed stone and is easy to construct because it is possible to shorten the air, and handling and transportation is widely applied in various fields. Such slag includes blast furnace slag generated in the manufacturing process of pig iron and steelmaking slag including converter slag and electric furnace slag generated in the process of manufacturing steel.

Therefore, the present invention by applying such blast furnace or steelmaking slag is to prevent the contamination of the basement layer of the foundation ground while permanently strengthening the soft ground even at low cost.

In particular, the present invention may use the steelmaking slag generated in the process of removing the carbon, silicon components and the like dissolved in the iron in order to make the steel from iron as in the preferred embodiment of the present invention to be described later. This steel slag has high internal friction, high density, good wear resistance and heavy characteristics. Therefore, a preferred embodiment of the present invention is to effectively prevent ground subsidence by maintaining the continuous firmness of the penetration column to the foundation by applying such steelmaking slag.

According to the present invention, since the same substitution method can be carried out using steelmaking or blast furnace slag and water, it is possible to reduce the construction cost by administering a short time, the penetration column formed by the oxidation of the slag by a chemical reaction Since the permanent solid state is maintained, it is possible to effectively prevent ground subsidence caused by damage to the solid state of the penetration column even after reinforcement of the foundation ground.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, FIGS. 1 to 2E, and like reference numerals denote like elements for performing the same functions in FIGS. 2A to 2E. On the other hand, in each drawing, the illustration and the detailed description of the technical contents that can be easily applied from the general compaction method and the same replacement method are parts that can be easily understood by those skilled in the art, and thus, are briefly omitted or omitted. The parts are shown centered.

Figure 1 is a flow chart for explaining the foundation ground reinforcement method according to a preferred embodiment of the present invention, Figures 2a to 2e is a buried layer 20, sand layer 30 according to the preferred ground reinforcement method according to a preferred embodiment of the present invention , Figures sequentially showing an example applied to the foundation ground consisting of a clay layer (40).

1 to 2E, the basic ground reinforcing method according to a preferred embodiment of the present invention is the same as the conventional copper substitution method, the surface layer 10 of the foundation ground (about 1m or less) in a trench or ground After arranging (S200), and proceeds to the same substitution method (S100). At this time, the progress of the improved copper substitution method according to the preferred embodiment of the present invention (S100) first breaks the blow hole (50, copper replacement point) (S100), while laying steelmaking slag in the blow hole (50) Salt (sodium chloride) is sprayed on the upper surface and sprayed with water to hit the center 72 of the striking device 70 to compact the steel slag laid in the ground layer to form the penetration column 60 (S130). The blow holes 50 formed in the embodiment of the present invention were formed on the buried layer 20, and the depth D ₁ was about 2.5m. And the penetration column 60 was separated from each other on the foundation ground (S) is about 7m and the depth (D ₂ ) hit to about 4.5m to reach the sand layer (30). And in the embodiment of the present invention, but sprinkled with salt and sprayed water, it will be able to construct by spraying the brine immediately. For example, in saltwater, reclaimed land, etc., it would be more convenient to apply salt water immediately. In addition, the formation of the penetration column 60 is performed by repeatedly performing the blow and the injection of steelmaking slag and brine in the same manner as the general copper substitution method. In the preferred embodiment of the present invention, the application of water, especially brine, is to obtain the effect of further promoting the oxidation of the blast furnace or steelmaking slag.

Meanwhile, the basic ground reinforcing method according to the preferred embodiment of the present invention is a compaction method (S220) and a vibration compacting method after strengthening the soft ground (FIG. 2a and 2b) through a specially proposed copper substitution method as described above. Proceed (S230) sequentially so that the entire foundation ground is further stabilized. The compaction method is compacted to an intermediate point of the penetration column 90 inserted into the buried layer 20 'as shown in FIG. 2D, and the vibration compaction method is applied to the upper side 20 of the buried layer by vibrating rollers as shown in FIG. 2E. ") To vibrate.

As described above, the foundation ground reinforcement method according to a preferred embodiment of the present invention is shown in accordance with the above description and drawings, but this is merely described, for example, various changes and within the scope without departing from the spirit of the invention Those skilled in the art will appreciate that changes are possible.

According to the basic ground reinforcement method according to the present invention, since the same substitution method can be carried out using slag and brine, it is possible to easily reinforce the ground in a short construction period it is possible to reduce the construction cost. In addition, the penetration column formed by the oxidation of the slag by the chemical reaction is to maintain a permanent solidification state, it is possible to effectively prevent the settlement of the ground caused by damage to the solidification state of the penetration column even after reinforcement of the foundation ground.

Claims (4)

In the ground foundation reinforcement method using the copper substitution method for strengthening the soft ground, Breaking and arranging the foundation ground on the soft ground; Digging at predetermined intervals and depths on the excavated and arranged base ground to form a blow hole; Laying slag in the blow hole and spraying water; Hitting the laid slag with a pivot to penetrate the ground to form a penetration pillar; Including, The sprayed water is brine, and the slag laid is steelmaking slag. And the brine is obtained by laying salt on the slag laid in the blow hole and spraying water. The method of claim 1, Compacting the foundation ground such that the penetration column is formed and then compacted to an intermediate point of the penetration column; The method of claim 1, further comprising the step of vibrating compaction with the vibration roller of the upper base ground layer in which the compaction is completed. delete delete

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