KR20050117149A - Watercourse pavement method using textile hardening panel and soil pavement method - Google Patents

Abstract

The present invention relates to a waterway surface packaging method using a fiber solid plate and soil packaging method,

In the case of paving on the surface of the waterway surface where the floor and slope are well ground, the slope is connected with fiber solid board continuously, and the floor is mixed with cement, hardener and soil adhesive with local motto as the motto. By moist curing, it is characterized in that the slope and the bottom to form a solid base and packaging to be an environmentally friendly waterway surface.

As mentioned above, the aqueducts constructed in accordance with the present invention cannot grow through the surface layer of the reed roots such as the reeds having growth foundations in the bottom layer of the channel, and the growth of aquatic plants rooted at the bottom of the channel is suppressed. As the flow of water in the channel is not blocked due to growth, the water in the channel is allowed to flow continuously, so that the environment of the channel is eco-friendly.

Description

Watercourse pavement method using textile hardening panel and soil pavement method

The present invention relates to a waterway surface pavement method using a fiber solidified plate and a soil pavement method, and more particularly, in the case of performing various waterway construction, the fiber solidified plate is continuously laid on the slopes up to the part where the water level reaches. A non-woven fabric tape is attached to the connection surface of the fiber solid board to prevent water from penetrating into the bottom, while the bottom of the channel is a mortar mixed soil mixed with cement, solidified liquid, and soil glue with water as the motto. The present invention relates to a waterway surface pavement method using a fiber solidified plate and a soil pavement method to allow the waterway slope and the wall surface to have high tensile strength and compressive strength by laying and then wet curing.

In general, waterways can maintain and maintain a constant flow of water to supply and manage high-quality water, but the surrounding area has an environment in which the reeds, which are planted roots at the bottom of the channel, can grow continuously. Reeds are growing, and through this, general aquatic plants and floating aquatic plants are concentrated on reed stems. Therefore, if there is no regular channel cleaning, part of the channel is blocked by these plant groups, and the flow of water is delayed and part of the water becomes rotten. In some rains, waterways are flooded, often causing damage to surrounding farmland.

In order to suppress the growth of these aquatic plants, gabions, raft blocks, and concrete walls are installed on the slopes of the aqueducts. In the case of the concrete retaining wall construction method, in which the waterway slope is broken down after 2 ~ 3 years as a result of breaking through the revetment block connection surface, and some defects or repairs are required, and the entire waterway slope is paved to suppress the growth of aquatic plants. There are disadvantages such as unfriendly environment and high construction cost such as very fast flow rate in the waterway and destruction of the ecosystem in the waterway due to cement poisoning.

Recently, eco-friendly slope construction is made mainly by making plastics into grids and attaching them to the waterway slopes.However, a method of laying vinyl sheets on the waterway is in progress, but these methods have a tensile strength or adhesion to soil in the bottom layer of the waterway slope. Weakness and fragile even with a slight impact, along with the disadvantage that the fire is transferred when the rice field burns in spring, followed by the risk of fire.

On the other hand, the waterway floor has no special construction method and the only way is concrete pavement, which is expensive, but has the disadvantage of making the waterway as a sewer.

Therefore, the construction is simple, the tensile and compressive strength is large, it can withstand the long-term water flow in the channel, there is no damage to freezing and thaw, and it is safe to fire and eco-friendly construction method.

The present invention is to solve the conventional problems as described above, to produce a fiber solid plate with a low permeability coefficient and a fire-resistant material and excellent adhesion, and to lay the fiber solid plate and the fiber solid plate to match the level of water surface slope The part is covered with a solidified non-woven cloth tape that is used for slitting, and the entire surface of the channel is formed to be one wall, and the bottom of the channel is based on the soil inside the channel, and cement, solidifying agent, and soil adhesive are laid together with water. This ensures that the entire canal is completely glued so that even if the plant's seeds or roots are on the bottom, they cannot germinate or grow.

On the other hand, the construction method according to the present invention is good for the construction of the waterway slope and floor construction itself, economical and the material used is an eco-friendly material, and when the waterway slope and the waterway bottom of the fiber solid plate is completed, the cement or heavy metal is external It is to provide a high strength and environmentally friendly waterway pavement method because it does not leak.

The surface of the waterway paving method using the fiber solidification plate and the soil paving method of the present invention after finishing the slope and the bottom surface to be the surface of the waterway after the formation of the waterway, the slope is laid with a fiber solidified plate, the bottom is local soil With the motto, cement, hardener, soil adhesive and water are mixed and prepared by mortar, and then placed on the bottom of the waterway, characterized in that the finish by moist curing.

The fiber solidified board is manufactured by impregnating a solidified admixture with a nonwoven fabric of geotextiles or by installing a nonwoven fabric of civil fibers on a water slope at the site and fixing it, and then spraying the solidified admixture with the infiltrate into the nonwoven fabric. Refers to the formed plate.

The thickness of the fiber solid sheet can be adjusted by about 1 cm to 3 cm depending on the height of the water slope and the width is about 50 cm to 1 m.

The length of the fiber solid plate can be adjusted according to the water level in the channel, but it is advantageous to manufacture it as a standard product.

In addition, the ground work of the waterway is to be carried out using the soil paving method. The motto soil can use local soil as a raw material, and when the local soil is not a good ingredient, it can be used by bringing in external soil such as martha and ocher. have.

The motto uses a sorter less than 2mm in diameter and mixes the selected motto with 150kg ~ 200kg of cement per 1㎥ of soil to make a mixed soil, and 1kg per 1㎥ of dirt with 200ℓ ~ 300ℓ of water per 1㎥ of soil. 7kg mixed soil mixed with mixed soil and mixed soil mixed with 700g ~ 1500g per 1m3 of soil adhesive, mixed with mixed soil and laid on the bottom of waterway. Wet curing for one to ten days completes the waterway bottom with high compressive strength and soil texture.

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

However, these drawings are for illustrative purposes only, and the present invention is not limited thereto.

In particular, among the chemicals used in these drawings, the hardener includes all of the hardeners for hardening cement and soil, and the soil adhesive may also use a soil adhesive having a physical property capable of adhering soil and soil, soil and cement. Belongs to.

Fig. 1

Figure 1 is a perspective view showing the overall configuration of the waterway surface packaging method using the fiber solidified plate and the soil packaging method according to the present invention.

Referring to Figure 1 after the slope and the bottom of the water channel to be well formed by compacting plate, etc. After the incision on the waterway road 11 side 20cm ~ 30cm in accordance with the water level height on the slope to form a cut surface (10) Support fiber fixing plate 21 is laid on the incision plane and the fiber fixing plate 20 is lined with the cutting surface in line with the cut surface so that there is no gap between the fiber fixing plates 20, and then the supporting fiber fixing plate 21 on the upper side. Is attached to the solidified nonwoven fabric tape (22).

In the connection between the fiber solid plate 20 and the fiber solid plate 20, the support anchors 23 welded with T-shaped flat iron were mounted on the top and bottom of the fiber solid plate 20. To prevent this from happening.

When the support anchor 23 is finished, the connection part with the fiber solid plate 20 is attached to the solidified nonwoven fabric tape 22 again, whereby the metal powder of the support anchor 23 is exposed to the atmosphere as well as the slitting between the plate and the plate. To prevent corrosion.

When the slope construction is completed, the waterway bottom is laid with a mixed agitator (38) mixed with soil (31), cement (34), hardener (35), soil adhesive (36), and water (37) and compacted with a vibrator. After the surface plastering and wetting cured to form a waterway bottom 30, at this time, the fiber solidified plate 20 and the waterway bottom 30 installed on the slope are integrated with a slaughter paste to form a waterway surface with excellent durability and stability. It prevents germination or growth of vegetation plants rooted at the bottom of the channel, and the upper part of the support fiber solidification plate 21 is covered with soil 31 so that the upper part of the water level in the channel forms the vegetation zone 12. Way.

[Figure 2]

Figure 2 is a perspective view showing an embodiment of a first method of the fiber-solid plate packaging method according to the present invention.

The support fiber solidification plate 21 is first laid on the top of the well-finished water channel, and the bonding surface is attached with a nonwoven fabric tape 22, and then the fiber solidification plate 20 is placed side by side along the slope of the fiber solidification plate 20 2) About two places above and below the joining surface are planted, and the T-shaped support anchor 23 to which flat iron was joined is planted, and the fiber-solidified board 20 is prevented from being lifted by the water flow of a channel.

Thereafter, the support fiber fixing plate 21 and the fiber fixing plate 20 are bonded with the nonwoven fabric fixing tape 22 to increase the supporting force and prevent water from penetrating between the plates.

In the finishing operation, the bonding surfaces between the fiber-fixing plates 20 are attached to the nonwoven fabric fixing tape 22 to prevent the strength of the bonding surfaces and leakage.

At this time, the width of the nonwoven fabric fixing tape 22 is preferably constructed to have a width that can cover the flat iron of the T-shaped support anchor (23).

3

Figure 3 is an embodiment showing a second method embodiment of the fiber-solid plate packaging method according to the present invention.

The fiber nonwoven fabric 28 is laid on the surface of the well-finished water channel, and the support anchor 23 is fixed to fix the fiber nonwoven fabric 28, and the solidified mixed solution 25 is discharged from the air compressor 26. After spraying with a spray nozzle 27 on the upper portion of the fiber nonwoven fabric 28 using a roller to form a fiber solidified plate 20 integrated with curing and the ground by the roller, and then anchor component on the support anchor 23 Finish by attaching a rectangular non-woven fabric tape 24 to prevent rust iron.

[Fig 4]

Figure 4 is a perspective view of an embodiment of the waterway soil packing method according to the present invention.

Local soil, ocher, masato (31), etc. are sorted to 2 cm or less with a sorting machine (32) to produce a motto (33), and mixed with cement (34) to produce a mixed soil, followed by a solidifying agent (35) in water (37). And the soil adhesive (36) to dissolve the mixed agitated soil mixed with mixed soil (38) was installed on the bottom surface of the water, and then covered with vinyl to wet cure to form a waterway bottom (30) layer.

The waterway bottom 30 layer may have a thickness of about 20cm to 50cm to withstand freezing thawing and water pressure. The waterway bottom 30 is directly bonded to the fiber solidified plate 20 on the slope during construction of the waterway bottom 30 between the slope and the bottom. This prevents water from penetrating the bottom of the channel.

As above, the waterway surface paving method using the fiber solidification board and the soil paving method according to the present invention completely wraps the water in the waterway by completely sealing the slopes and bottom layers of the waterway so that the water permeability is low and there is no gap between the packaging materials on the waterway surface. It penetrates into the lower part of the surface to prevent erosion of the bottom of the channel and slopes, and prevents root plants such as seeds and reeds of plants that survive on the bottom and lower layers of the channel from germinating or vegetation through the surface layer. The construction cost is inexpensive by using soil, and the sloped layer is completed by attaching a large fiber solid plate, which has an effect of shortening the construction period and constructability better than the existing construction method.

Figure 1 is a perspective view showing the overall configuration of the waterway surface packaging method using the fiber solid plate and soil packaging method according to the present invention.

Figure 2 is a perspective view of an embodiment of a first method of packing a fiber-solid plate according to the present invention.

Figure 3 is a perspective view of an embodiment of a second method of the fiber solid plate packaging method according to the present invention.

Figure 4 is a perspective view of an embodiment of a first method of waterway soil packing method according to the present invention.

*** Explanation of main parts of drawing ***

10. Incision surface 11. Waterway

12. Vegetation zone 20. Fiberboard

21. Supporting fiber solid plate 22. Solidified nonwoven fabric tape

23. Supporting anchor 24. Rectangular solidified nonwoven tape

25. Solidified Mixture 26. Air Compressor

27. Spray nozzle 28. Textile nonwoven fabric

30. Channel bottom 31. Soil

32. Sorter 33. Moto

34. Cement 35. Solidifying Agent

36. Soil glue 37. Water

38. Mixed Agitated Soil

Claims (4)

In paving the surface of the channel, Waterway surface paving method characterized by paving the waterway slope with a fiber solid plate and paving the waterway bottom by earth paving method In packing the surface of the channel slope with a fiber solid plate, Waterway slope packaging method, characterized in that the fabrication of the solidified fiber board and wrapping and to install the fiber non-woven fabric by spraying the solidified mixed solution at high pressure to form and package the fiber solidified board A fiber height comprising the method of attaching a fiber solid plate to the slope by attaching a T-shaped anchor to the connection between the fiber solid plates and the method of attaching the connection between the plates using a solid nonwoven fabric tape. How to connect the drawing board As a method of forming the bottom layer of the channel, the soil is used as a main ingredient, and the mixed agitated soil mixed with cement, water, hardener, and soil adhesive is laid on the channel ground and moist cured, or cured after voltage compaction. Water channel soil paving method