KR200471032Y1 - Drain board with laminated filter for drain pass - Google Patents

Abstract

The present invention is a drainage flow path including a sheet-like first film formed of a fibrous aggregate and having micropores through which moisture passes, and a plastic sheet-like second film bonded to one surface of the first film and having a plurality of through holes. Provide a composite filter. According to the present invention, even when the drainage function is continuously required under pressure, the indentation of the flow path is minimized to maintain the drainage performance, thereby reducing the construction period and ensuring the drainage reliability.

Description

Drain board with laminated filter for drain pass

The present invention relates to a filter for a drainage flow path, and in particular, proposes a new composite filter for drainage flow passages excellent in filtration performance while preventing indentation.

Areas formed by reclamation, dredging, or reclamation of coasts, rivers, lakes, and harbors not only form wetlands mixed with water and viscous soils or water, but also contain pore water in the ground. Since the overall strength of the soil becomes very weak, it is necessary to improve the soft ground to be suitable for site utilization in order to use such an area as an industrial area or a commercial area.

In the method for improving the soft ground, sand pillars or plastic drain boards, such as sand drain or prefabricated vertical drain (PVD) methods, are formed on the ground by the casing and the ground water of the ground is discharged to the ground. Vertical drainage method to promote consolidation of sand, sand compaction pile method to form ground compaction piles on the ground, and to reinforce the bearing capacity of the ground along with the discharge of ground pore water, and to reclaim the landfill Various methods such as forced replacement method by limb method or lime column method using lime pillar are widely used depending on the site conditions, but the vertical drainage method is very widely used in large area improvement methods. have.

In the vertical drainage method, a plurality of vertical drainage materials are inserted into the soft ground in rows and columns at predetermined intervals, and a horizontal drainage layer composed of sand and the like having excellent water permeability to drain underground gap water discharged to the ground surface through the vertical drainage material is provided. It is formed and installs sediment which can apply a load on the horizontal drainage layer for the purpose of increasing the water pressure of the ground pore water in the soft ground.

As shown in FIG. 1, the vertical drainage 100 includes a drainage core 110 integrally formed with a partition wall partitioning the water outlet 130 and a filter 150 surrounding the outside of the drainage core. The core of the drain material provides a drain flow path, and the water introduced through the filter is discharged to the outside in a vertical direction through the water outlet of the drain material core.

The vertical drainage material using the nonwoven fabric as the filter lacks the rigidity of the nonwoven fabric itself, and thus, when the vertical drainage material is constructed on the soft ground, flow indentation by external pressure (side pressure) occurs.

Fig. 2 shows a vertical drainage material that has elapsed time after construction. When the pressure is applied to the vertical drainage after construction, the nonwoven fabric used as the filter 150 has a lack of rigidity, so it is forced to be pressurized into the flow path. It acts as a cause of deterioration of drainage performance of vertical drainage.

In the improvement of soft ground in large areas, the reduction of drainage function due to the indentation of vertical drainage nonwoven fabrics can lead to enormous cost loss due to the delay of construction period, and finally contribute to the failure of construction.

On the other hand, in the construction site where the waterproof function is continuously required, as a filter to be coupled to the drain flow path surface of the waterproof sheet, it is possible to replace the existing non-rigid nonwoven fabric, and an excellent filter that can maintain durability for a long time as well as drainage performance. need.

The present invention was devised under the above technical background, and an object of the present invention is to provide a new filter that can prevent indentation in a site where drainage is required under pressure.

Another object of the present invention is to provide a filter for preventing drainage intrusion, which has a small deformation and improved durability while maintaining a filtration function.

Another object of the present invention is to provide a new filter that can be applied to a variety of products that require drainage.

Other objects and technical features of the present invention will be presented in more detail in the following detailed description.

In order to achieve the above object, the present invention is formed into a fibrous aggregate, the first sheet-like film having micropores through which moisture passes, and the plastic sheet-like second bonded to one surface of the first film and having a plurality of holes distributed therein. Provided is a composite filter for protecting a drain passage including a film.

Preferably, the first film has a larger thickness than the second film, and the plurality of through holes of the second film may be regularly or irregularly distributed. Preferably, the through hole of the second film is larger than the pore of the first film.

The composite filter may be used as a drain filter enclosing a drain core having a water port through which moisture moves, in which case the second film is in direct contact with the drain core and the first film is bonded to the second film surface. It is exposed to the outside.

In addition, the composite filter may be used as a filter for induction of drainage coupled to the surface of the waterproof sheet, and improves the drainage performance by combining the composite filter on the surface of the drainage passage of the waterproof sheet having the uneven drainage passage formed on the surface thereof. You can.

When the composite filter according to the present invention is applied to a material requiring continuous maintenance of the drainage function under pressure, flow indentation is minimized to prevent a decrease in drainage performance, thereby shortening construction period and ensuring drainage reliability. Especially in soft ground improvement or large scale waterproofing construction, the drainage and waterproofing efficiency can be improved, and it is suitable for manufacturing into a large plate-like sheet, so that excessive increase in production cost can be suppressed.

1 is a perspective view showing the structure of the vertical drainage.
2 is a cross-sectional view showing a vertical drainage material having a reduced drainage function by indentation;
3 is a cross-sectional view showing a composite filter of the present invention.
Figure 4 is a plan view showing a first film of the present invention.
5 is a plan view showing a second film of the present invention.
Figure 6 is a cross-sectional view showing a vertical drain to which the composite filter of the present invention is applied.
7 is an enlarged view of FIG. 6.
8 is a perspective view showing a waterproof sheet formed with a drainage channel surface.
9 is a cross-sectional view showing a waterproof sheet to which a composite filter of the present invention is applied.

The present invention proposes a new filter for preventing drainage indentation, which greatly improves rigidity while maintaining filtration characteristics. Specifically, a rigid thin film having a low strain is punctured regularly or irregularly, and the rigid thin film is laminated with a fibrous structure having a low weight and fine pores to form a composite filter. This composite filter maintains the filtration and permeation functions for a long time and prevents indentation of the drain flow path so that a good drainage function is maintained even under a pressure applied condition.

The composite filter 200 for the drainage flow path of the present invention is formed of a fibrous aggregate as shown in FIG. 3, and has a sheet-like first film 210 having fine pores through which moisture passes, and is bonded to one surface of the first film. It includes a plastic sheet-like second film 220 in which a plurality of through-holes are distributed.

The first film 210 and the second film 220 may be formed to have the same thickness, the thickness of the second film may be formed lower than the thickness of the first film.

The first film 210 and the second film 220 may be bonded to each other by using a separate adhesive on the adhesive surface, or may be combined by thermal bonding or the like.

As illustrated in FIG. 4, the first film is a fibrous aggregate in which fibrous tissues are regularly or irregularly arranged and compressed. Nonwoven fabrics can be used as such fibrous aggregates.

A nonwoven fabric is a bonded fabric that is not made of fabric or cloth to form a cloth or cloth, but rather a polymer aggregate is treated by mechanical, chemical, or heat binding of fiber aggregates to form a fabric. There are many fine pores inside the fiber assembly, which allows air and moisture to pass through, making it suitable for use as a filter.

However, the nonwoven fabric has a disadvantage in that the deformation is greater than that of the woven fabric, so that the nonwoven fabric is easily pressed into the flow path by side pressure during construction, thereby reducing the drainage function. In order to compensate for these disadvantages, the present invention constitutes a composite filter with a second film combined with a first film.

As shown in FIG. 5, the second film 220 has a plurality of through holes 222 regularly or irregularly distributed. Unlike the first film, the second film is made of a material having excellent rigidity and less deformation with respect to stress. Preferably, a polymer resin or plastic film is used.

The through hole of the second film is preferably larger than the fine pores of the first film to smoothly move moisture or perform a filter function.

The composite filter in which the plate-shaped first film and the second film are combined may be used as a drain filter that surrounds a drain core having a water passage through which moisture moves. 6 and 7, the drainage core 110 includes a plurality of water outlets 130, and a composite filter covering the water outlets on the outer surface of the water discharge core is disposed. The second film of the composite filter is in direct contact with the drainage core and the first film is exposed to the outside while bonded to the second film surface.

By combining the first film, which is a small microporous fiber aggregate, and the second film having relatively large holes 222, the first film prevents the inflow of fine particles and exhibits a filtration function for passing water, while the second film In addition to passing the water, the film may compensate for the disadvantage that deformation easily occurs when stress is applied by the characteristics of the material of the first film.

When a composite filter combining two films of different weights, strengths, and pore sizes is applied to a product for drainage induction for filtration purposes, the stiffness of the second film prevents the indentation phenomenon in which the filter is rolled into the drainage channel under external pressure. do. Therefore, a water movement space between the drainage core 110 and the second film 220 of the composite filter, that is, the water passage 130, which is a drainage flow path, may be maintained to ensure excellent drainage to water passage efficiency.

When the vertical drainage material having such a structure is installed in the soft ground, the durability of the vertical drainage material can be greatly improved, and as a result, the soft ground improvement effect is also improved.

The composite filter according to the present invention can be applied to other products for the purpose of securing a drainage flow path and performing a filtration function.

For example, referring to FIG. 8, a plate-like waterproof sheet 300 having an uneven drain passage 310 formed thereon is illustrated. It is possible to combine the composite filter of the present invention on the surface formed with the drainage passage of the waterproof sheet (see Fig. 9). The second film 220 is in direct contact with the drain channel forming surface of the waterproof sheet, and the first film 210 is exposed to the outside while in contact with the second film.

The waterproof sheet blocks moisture in the thickness direction and moves moisture to the drain flow path surface. As described above, the waterproof sheet combined with the composite filter is prevented from clogging the waterproof sheet drain passage by press-fitting in the construction site where external pressure is applied, thereby further increasing the waterproof efficiency.

Although the present invention has been exemplarily described through the preferred embodiments, the present invention is not limited to such specific embodiments, and the present invention is within the scope described in the technical idea, specifically, the utility model registration claims. It may be modified, changed or improved in various forms.

110: drainage core 150: filter
200: composite filter 210: first film
220: second film 222: through-hole
300: waterproof sheet 310: drainage flow path

Claims (8)

In the vertical drainage for soft ground improvement,
A drainage core integrally formed with a plurality of partitions for partitioning the water flow port through which water moves;
A filter surrounding the outside of the drainage core, the sheet-like first film is formed of a fibrous aggregate, the micropores through which moisture passes, and the plastic sheet-like second bonded to one surface of the first film, the plurality of holes are distributed A drain filter comprising a film,
The second film is in direct contact with the drainage core and the first film is exposed to the outside while bonded to the second film surface, the through hole of the second film is characterized in that larger than the pores of the first film
Vertical drainage. The composite filter of claim 1, wherein the first film has a larger thickness than the second film. The composite filter of claim 1, wherein the second film has a plurality of through holes regularly distributed. delete delete delete delete delete

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