KR100758560B1 - Presloped precast trench structure - Google Patents

Abstract

A presloped precast trench structure is provided to facilitate installation of a drain by modularizing the drain in the unit of 1m to 3m. A presloped precast trench structure comprises a stepped portion(170) formed at the external body of a block(100) to fix a cover to the upper portion of the external body of the block(100). A base(180) is installed at the two lower end portions of the external body of the block(100). A drain section(120) drains sewage. A drain pipe discharges the sewage to a purifier. An embossed section(191) is formed at one side of the external body of the block(100) to facilitate interconnection of the block(100) and another block(100'). An engraved section(192) is located oppositely to the embossed section(191). A connection section(200) is coupled to two lower grooves of a connection portion of the blocks(100,100').

Description

Gradient precast trench structure

1 is a perspective view of a block 100 including a drain 120 of a gradient precast trench structure in accordance with the present invention.

2 is a perspective view showing the connection portion 200 of the gradient precast trench structure according to the present invention.

FIG. 3 is a perspective view showing the modular block 100 of FIG. 1 connected in sequence.

4 is a plan view of a gradient precast trench structure in accordance with the present invention.

FIG. 5 is a cross-sectional view taken along line AA ′ and BB ′ of FIG. 4.

FIG. 6 is a cross-sectional view taken along the line CC ′ of FIG. 4.

7 is a view showing an embodiment according to the present invention.

※ Explanation of code of main part of drawing ※

100: block 120: drain
150: drain pipe connection 160: drain pipe
170: stage 180: foundation
191: embossed 192: engraved
200: connecting portion 210: mounting screw
220: support portion 230: side portion
240: rebar 250: reinforcing bar
260: tightening screw 270: bending prevention groove

delete

delete

delete

delete

delete

delete

delete

The present invention relates to an open drainage structure, and more specifically, unlike the conventional drainage, the upper surface is maintained horizontally while the lower surface is formed at a predetermined angle to form a U-shaped drain block formed of polymer concrete so that The flow is made smoothly at all times regardless of the amount of drainage, and the drainage is completely removed without additional manpower input, so that the bottom of the drainage path is always dry and clean. It is about.

If there is no gradient in the existing horizontal drainage system, when the drainage drops, pollutants accumulate on the floor along with the residual water and it is unpleasant. It is an object of the present invention to provide a trench structure.

In general, open drainage structures include on-site pour-type open drainage structures that are poured on site with concrete and prefabricated drainage structures of concrete precast.

However, since the field-pouring open drainage structure as described above is grasped by manual labor by the manpower, the grading is difficult to be made precisely according to the work of the on-site technician, and it is difficult to secure the quality due to the limitation of precision.

In addition, the existing prefabricated drainage structure does not have its own gradient, and if it is not a ground consisting of natural gradients, drainage does not go well and remains contaminated on the floor, which is environmentally poor and has to be cleaned regularly. For example, when the drainage is installed in the same plane as the sports stadium, such a problem occurs remarkably.

Recently, drainage trenches are manufactured in advance in the factory and assembled and constructed at the construction site. The products thus manufactured are mainly made of synthetic resin composite materials or concrete.

These synthetic resins are weak to heat due to the characteristics of the material, and easily deformed by external impacts such as earth pressure. Cement concrete requires a long curing period, and thus requires a long time for the installation process. There was a problem of being damaged by freezing and the like.

In addition, the structure made of synthetic resin or concrete is also a horizontal drainage structure without its own gradient, the drainage is not made smoothly on the ground, and the residues along with the residual water had to be regularly cleaned.

In order to solve all these problems, a gradient precast trench was invented by selecting a material called polymer concrete, which is resistant to East Sea fusion, has acid resistance, and has low roughness coefficient and excellent moldability.

In order to solve the above problems, the present invention provides a gradient precast trench structure formed of polymer concrete having a low roughness coefficient so as to maintain the flow of residual wastewater at all times regardless of a large or small amount of drainage so that no contaminants remain on the floor. There is this.

In addition, an object of the present invention is to provide a gradient precast trench structure that can be easily installed and variously installed on site according to the construction length by modularizing the drainage channel in units of 1m to 3m.

Finally, the present invention has a purpose to shape the bottom surface in a 'U' shape so that a small amount of wastewater is concentrated in the center of the drainage to smooth the flow of the drainage.

According to the present invention, in a sewage or sewage flow path, a U-shaped inclined drain portion 120 capable of mis-draining treatment so as not to leave residues and residual water in the drainage passage, and both longitudinal upper sides of the drain portion 120 The base 170 having a structural form that enhances the adhesion between the end 170 and the outer bottom side of the block 100 so as to mount the trench cover on the cement mortar covering the lower part to fix the block 100. It is formed of a block 100 formed of polymer concrete.

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

1 is a perspective view of a block 100 including a drain 120 of a gradient precast trench structure in accordance with the present invention.

The block 100 is a U-shaped wastewater treatment to prevent the wastewater or sewage flowing in the drainage to leave residual and residual water by making a slope of the lower drainage 120 is less than 3% with respect to the horizontal ground A drain 170 and a stage 170 are formed to place a trench cover on both sides of the drain 120 in a longitudinal direction, and the block 100 is fixed to both sides of the lower side of the outer bottom. The cement mortar and the block 100 is formed of a base portion 180 having a shape for holding the block 100 so as not to be separated from the block 100 formed of polymer concrete.
In addition, the portion A shown in FIG. 1 shows the other side of the block 100, and both ends are embossed with the relief 191 and the intaglio 192, so that the installation is easy and the watertightness can be improved after installation.

delete

2 is a perspective view showing the connection portion 200 of the gradient precast trench structure according to the present invention.

In order to be able to combine two or more blocks 100 modularized in units of 1m to 3m, the connection portions of the block 100 are coupled by inserting the attachment screws 210 of the connection portions 200 into the lower grooves on both sides. The support part 220 supporting the bottom surface of the block 100 controls the height of the block 100 by the reinforcing bar 250 and the fastening screw 260 to fix the reinforcing bar 240 and at the same time the block 100. Will be supported.

The connection part 200 is an elliptical bending prevention groove 270 at the center of the support part 220 to lighten the weight of the connection part 200 and bend the connection part 200 due to inadvertent operation during load or assembly of the block 100. Is made to prevent.

In addition, the height of the block 100 may be adjusted by the loosening and tightening of the tightening screw 260 connected to the reinforcing bar 250 to fix the reinforcement 240.

FIG. 3 is an attempt to sequentially connect the modular block 100 of FIG. 1.

The factory-prefabricated trench is shown in Figure 3, one side cross-section is embossed 191, and the other side cross-section is formed into the intaglio 192, so that the block 100 in sequence without opening By connecting and extending in the longitudinal direction, the block 100 has an inclination angle of 3% or less with respect to the horizontal ground.

 When connecting two or more blocks 100 modularized in units of 1m to 3m, the connection part 200 may be attached to the groove of the lower end of the block 100 as shown in the drawing, or may be connected by laying a cement mortar.

4 is a plan view of a gradient precast trench structure according to the present invention, FIG. 5 is a cross-sectional view of the portion A-A 'and B-B' of FIG. 4, and FIG. 6 is a cross-sectional view of the portion C-C 'of FIG.

The AA ′ portion is a view showing that one side cross-section of the block 100 forms an embossed 191, and the other side cross-section is formed into the intaglio 192, the block 100 without opening of the connection portion It is made to extend in the longitudinal direction by connecting sequentially.

The BB 'portion has a cement mortar to fix the block 100 on both sides of the lower bottom side of the block 100. The base portion 180 holds the cement mortar and the block 100 so as not to be separated, and the block One bottom surface of the (100) is a view showing that the drain pipe connection portion 150 is engraved in an oval shape to easily connect the drain pipe 160 in the field.

The C-C 'portion is a view showing that the bottom surface is inclined angle of 3% or less so that the bottom surface of the block 100 is inclined with respect to the horizontal ground.

7 is a view showing an embodiment according to the present invention.

According to the present invention, each block 100 is sequentially coupled to the connecting portion 200 by using attachment screws 210 at both bottom lower grooves of the block 100, which are modularized in units of 1m to 3m, as shown. The height of the block 100 to match the height and height can be adjusted by releasing the tightening screw 260 connected to the reinforcing bar 250 to fix the reinforcing bar 240. The connection part 200 is included for convenience of construction, and may cement mortar according to the site requirements during construction.

The bottom surface of the block 100 forms an inclination angle of 3% or less with respect to the horizontal ground, and connects the drain pipe 160 to an elliptic drain pipe connection portion 150 formed in an intaglio form on the bottom surface of the block 100 to drain the drainage water. Discharge.
In addition, the gradient precast trench structure of the present invention, after installing the cement in the position to install the block 100 in order to install and secure the block 100, so that the foundation 180 is buried in the poured cement. Thus, it is possible to increase the bonding with the cement and to prevent shaking.

Although the preferred embodiments of the present invention have been described above, the scope of the present invention is not limited to the embodiments described above and the claims below, and those skilled in the art to which the present invention pertains various modifications and Equal implementation is possible.

As described above, the present invention has an effect of making the drainage well by giving a gradient only to the bottom surface of the drainage passage, forming a horizontal plane in accordance with the installation ground, and the fold drainage.

In addition, the present invention is modularized in units of 1m to 3m without limiting the construction length, and by forming both ends of the block in the intaglio and embossed, the installation is easy to increase the construction efficiency and the effect of improving the watertightness of the connection after the construction to the highest. .

Block drain formed of U-shaped polymer concrete with low roughness coefficient compared to cement concrete can effectively drain naturally without leaving residue and residual water, thereby preventing the accumulation of contaminants.

Claims (6)

In the gradient precast trench structure, Block 100; Located in the outer body of the block 100 when the block 100 is combined with another block 100 'to form a trench structure, the outside of the block 100 to prevent the inflow of dirt from the outside A stage 170 formed to secure the cover over the body; A base portion 180 positioned at both lower ends of the outer body of the block 100 to increase the bondability with the cement placed on the floor where the block 100 is to be installed and fixed to install the block 100; A U-shaped drainage portion 120 that performs a wastewater treatment so as not to leave residues and residual water at the bottom of the drainage path; A drain pipe 160 for discharging wastewater flowing out of the drain 120 to a septic tank; A drain pipe connection part 150 formed in an elliptic intaglio on one side of the bottom of the block 100 to discharge wastewater flowing out of the drain part 120 of the block 100 to the drain pipe 160; An embossed 191 formed on one side of the outer body of the block 100 to facilitate connection of the block 100 with another block 100 '; An intaglio 192 formed on an outer body of the block 100 on an opposite side of the embossment 191 and formed to facilitate connection between the block 100 and a counterpart block in combination with the embossment 191; It is coupled to the lower grooves on both sides of the connection portion of the block (100, 100 ') through the attachment screw 210, and after the coupling of the block 100 and another block (100') in a trench structure to prevent shaking and bending A connection part 200 formed to easily install the trench structure, wherein a connection part 200 supporting the block 100 when the trench structure is formed using the connection part 200 is formed on a bottom surface thereof; The block 100 is modularized into 1m to 3m using the connection part 200 to connect two or more blocks 100 to form a trench structure, and then embedded in cement installed at the installation location to shake the trench structure. Rebar 240 is installed on both sides of the connecting portion 200 to prevent the; Reinforcing bar fastening unit 250 is installed on both sides of the connecting portion 200 to prevent shaking of the reinforcing bars 240 when the reinforcement 240 is embedded in the poured cement; Gradient precast trench structure comprising a. delete The method of claim 1, Gradient precast trench structure, characterized in that the drain portion 120 of the block 100 is inclined with respect to the horizontal top surface to form a slope angle of less than 3%. The method of claim 1, The block 100 is formed on both sides by embossing 191 on one side and intaglio 192 on the other side, and using the embossing 191 and the engraving 192 to form another block 100 '. Gradient precast trench structure, characterized in that to form a trench structure by combining. delete delete

Images