KR200426436Y1 - A Road Packing Materials - Google Patents

Abstract

This design uses the soil of the site as the main material so as not to harm plant growth, but it is a standardized improvement material that can be applied to pedestrian road pavement, waterproofing and soft ground by adjusting the mixing ratio of subsidiary materials according to the requirements of the road. By developing the system, the problems of the sub-materials are different according to the site conditions, which makes it difficult to grasp the physical properties of the site during the maintenance of the road, and the types of the sub-materials are standardized according to the requirements of the road. It is convenient and can set the standard of construction, and there is no need to perform the performance test separately, and it is in the soil improvement material stacking structure without difficulty in selecting improvement materials from the construction side because the performance has been verified.

To this end, the present invention compacts rubble in the foundation layer about 100mm, and compacts the soil improving material about 150mm thereon, and the soil improving material is shredded lime with respect to 90-100 parts by weight of soil in the field. 4 to 6 parts by weight of the powdered bentonite powder and 6 to 8 parts by weight of the back cement are sufficiently mixed and then installed on-site so that the compaction degree is 90% or more, so that the compressive strength of the soil improving material is 135 kg / cm 2 or more. In the middle, there is a feature to increase the cohesion by embedding a lattice type geogrid cell.

Soil, Quicklime, Bentonite Powder, Cement

Description

Soil modifier lamination structure {A Road Packing Materials}

1 is a cross-sectional view showing a construction state of the pedestrian paving soil improvement material of the present invention

Figure 2 is a cross-sectional view showing a construction state of the waterproofing soil improvement material of another embodiment of the present invention

Figure 3 is a cross-sectional view showing the construction state of the soil improvement material for soft ground of another embodiment of the present invention

The present invention relates to a soil improving material, and more particularly, the main soil is the main material so as not to harm plant growth, but the mixing ratio of subsidiary materials is adjusted according to the requirements of the road, paving the road, waterproofing and soft ground. By developing a standardized improvement material that can be applied to the existing materials, it is difficult to grasp the properties of the site during the maintenance of the road by adding subsidiary materials differently according to the conventional site conditions. The present invention relates to a lamination structure for a soil improving material capable of establishing a standard specification.

In general, asphalt or concrete is used for coating, but they are not permeable, not environmentally friendly, and radiant heat is generated when sunlight hits them, raising the air temperature and concentrating rainwater, causing river flooding. In addition, when asphalt or concrete is cracked or damaged and needs to be reconstructed, the existing paved asphalt or concrete has to be discarded and discarded.

Therefore, in recent years, a soil improver made by mixing soil, cement and quicklime has been developed, but due to the large amount of cement used to increase the durability of the road, it is less environmentally friendly, poor in texture, difficult to maintain the initial compressive strength, and becomes permeable. Of course, there is a problem that does not occur, the crack caused by the winter sea in winter.

On the other hand, it is possible to impart water resistance and grain strength by adding a soil stabilizer added with lignin sulfonic acid polymer, urea resin-based synthetic polymer emulsion and asphalt emulsion to masato mixed with cement and quicklime in soil such as clay soil, sandy soil and high water clay. In addition to road paving material (Korean Patent No. 12002) and a material called lomaldi (LOMAR D) consisting of naphthalene, calcium oxide, aluminum silicate, and water in place of quicklime, it can increase the compressive strength and shorten the curing speed. Road paving material (Korean Patent No. 50937) is provided.

However, if the soil stabilization treatment by adding asphalt emulsion, quicklime or lomaldi to the soil as described above may have some degree of compressive strength improvement or anti-freezing effect, but it is crushed, which is a disadvantage of the nature-friendly surface texture and Masato, There is a limit in preventing cracking caused by particle accumulation and wet construction.

Therefore, in recent years, as a composition for soil stabilization treatment (Patent Application No. 1997-35649), 2 to 5 parts by weight of Portland cement, 10 to 15 parts by weight of rubberized asphalt waterproofing liquid, and 1 to 4 weight of fly ash as 90 to 100 parts by weight of Masato. Part and calcium sulfo aluminate 1 to 3 parts by weight, and any one soil is selected from the group consisting of loess, equatorial, masato, kaolin, white clay, black clay and silica sand, and those containing a resin solution or an emulsion.

However, these conventional road pavement and improvement materials are inefficient in terms of time and cost because they cannot be standardized due to the different types of materials added to the sidewalk, waterproofing, and soft ground. As the performance was not verified, the contractor had difficulty in selecting packaging and improving materials.

The present invention was developed in view of the conventional problems, and the purpose of the present invention is to use the soil as the main material so as not to harm plant growth, but to adjust the mixing ratio of the subsidiary materials according to the requirements of the road to the pedestrian road By developing a standardized soil modifier that can be applied to pavement, waterproofing and soft ground, the problem of conventional materials, which is difficult to grasp the properties of the site during maintenance of the road, is solved by different kinds of submaterials according to site conditions. Since the types are standardized according to the requirements of the road, the maintenance of the site is convenient and the standard specifications of the construction can be determined, and there is no need for a separate performance test. The present invention is to provide a laminate structure for improving soil without difficulty in selection.

In order to achieve the above object, the present invention compacts rubble in the foundation layer by about 100mm, and compacts the soil improving material about 150mm thereon, but the soil improving material is minced with respect to 90 to 100 parts by weight of soil in the ground. 7 to 9 parts by weight of quicklime, 4 to 6 parts by weight of bentonite powder, and 6 to 8 parts by weight of back cement are sufficiently mixed and installed on-site so that the compaction is 90% or more. In the middle of the soil improving material has a feature of increasing the degree of cohesion by embedding a grid-type geogrid cell.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

This design is eco-friendly and does not harm plant growth. Soil is used as the main material to prevent waste materials during road repair work, and the quicklime, bentonite powder and cement are used in different proportions according to the site requirements. It is characterized by making it suitable for press improvement materials, waterproofing and soft ground. This design standardizes the physical properties of the upgraded materials through the same and standardized physical properties and durability tests to meet the requirements, thereby improving reliability by using standardized improved materials that have already been verified for performance when paving and improving roads on the construction side. When the maintenance of the road, it is easy to grasp the properties of the improved material has the advantage that can be quickly and accurately maintenance.

Hereinafter, the physical properties and construction method of the soil improving material according to the type of road will be described.

First, the pedestrian pavement improvement material is mixed with 7 to 9 parts by weight of quicklime, 4 to 6 parts by weight of bentonite powder, and 6 to 8 parts by weight of cement, based on 90 to 100 parts by weight of soil on the ground. After installation on site to make 90% or more of compaction, compressive strength should be more than 135kg / ㎠ over 28 days. The addition amount of the main material and the subsidiary materials is in a state where the required compressive strength is optimized, and when the addition amount is out of the addition amount, the required physical properties are incorrect and cannot be used as an improvement material.

As shown in FIG. 1, the rubble is compacted about 150 mm on the foundation layer of the site, and the pedestrian road pavement improvement material is compacted 100 to 150 mm thereon. At this time, the lattice-shaped geogrid cell is embedded in the middle of the road improvement material to increase the cohesion of the improvement material at the initial construction. And the main conditions and the material conditions of the submaterials are shown in the following table.

Main material soil 3mm 100% pass 1mm 90% pass # 200 houses 50% pass Water content 18% less than Subsidy Bentonite Powder 0.5mm 100% pass Swelling degree More than 20 Montmorillonite Content 80 or more quicklime 3mm 100% pass Back cement Commercial product

Quicklime stabilizes and solidifies the soil, forming a lining film that prevents erosion and prevents loss and collapse by leaching and groundwater.

Cement has a role in improving front bearing capacity and preventing collapse and breakage.

Bentonite powder improves impermeability and prevents surface damage from acid, chemical and toxic substances, and ashes. And depending on the soil conditions of the site can be added to the solidified fire to supplement the performance of the improved material.

Next, the waterproofing modifier is mixed with 5 to 7 parts by weight of fresh lime, 8 to 10 parts by weight of bentonite powder, and 4 to 6 parts by weight of ordinary portant cement, based on 90 to 100 parts by weight of soil on the ground. After the construction, make sure that the compaction rate is over 90% and the permeability is over 1 × 10 ^-6 m / sec. The addition amount of the main material and the subsidiary materials is in a state where the required permeability is optimized, and when the addition amount is out of the addition amount, the required physical properties are incorrect and cannot be used as an improvement material.

As shown in FIG. 2, the waterproofing layer is compacted about 150 to 300 mm, and the display layer is formed of a fiber network thereon, and then the general soil and gravel layer is compacted by 200 mm or more to protect the waterproof layer. The fiber display layer is to protect the waterproof layer when excavating or destroying the road, and to inform the worker that the display layer is required to be waterproof.

Next, for the soft ground improvement material, after mixing 8 to 10 parts by weight of quicklime, 2 to 4 parts by weight of bentonite powder, and 2 to 4 parts by weight of ordinary portant cement, based on 90 to 100 parts by weight of soil on uncoated soil. Construct it on site so that the compaction degree is over 90% so that the compressive strength is over 100kg / ㎠ over 28 days. The addition amount of the main material and the subsidiary materials is in a state where the required compressive strength is optimized, and when the addition amount is out of the addition amount, the required physical properties are incorrect and cannot be used as an improvement material.

As shown in FIG. 3, the soft ground pavement layer may vary according to the requirements of the site, and should be sprayed for maintaining wetness during curing. Of course, the pedestrian improvements and waterproof improvements also need to be sprinkled in order to maintain moisture during curing.

As described above, according to the present invention, pedestrian improvement material, waterproof improvement material, and soft ground improvement material are used as field soil, which is environmentally friendly. By standardizing the ashes, it is difficult to standardize the construction due to different physical properties added according to the improvement requirements of the conventional roads, and to reduce the economic burden of continuing to issue test reports according to the additive properties. The improved materials can be adopted on the basis of the reliability of the improved improved materials, and thus have no difficulty in construction.

In addition, the present invention is environmentally friendly because the soil is used as the main material, and it is possible to shorten the air by using the standardized material. It is expected to reduce the amount of industrial waste generated and to present construction standards.

Claims (2)

Compact the rubble on the foundation layer by about 100mm, and on top of the soil improver about 150mm, but the soil improver is 9 ~ 9 parts by weight of quicklime, which is crushed with respect to 90 ~ 100 parts by weight of the soil on the ground. 4 to 6 parts by weight of the bentonite powder and 6 to 8 parts by weight of the back cement are sufficiently mixed and installed in the field so that the compaction degree is 90% or more. Soil improving material laminated structure characterized in that the middle of the soil improving material is built a grid-type geogrid cell to increase the cohesion. Compact the waterproof layer about 150 ~ 300mm, but the waterproof layer is 5 ~ 7 parts by weight of quicklime, and 8 ~ 10 parts by weight of bentonite powder, and ordinary portland cement. After sufficient mixing of ~ 6 parts by weight in the field so that the compaction is 90% or more so that the permeability is 1 × 10 ^-6 m / sec or more, Forming a display layer of the fiber layer on the waterproof layer, and soil improvement material laminated structure characterized in that the compacted soil and gravel layer 200mm or more.

Images