KR20080113517A - Embeded waterspout apparatus and method for constructing the same - Google Patents

Abstract

An embedded rain gutter structure and the construction method are provided to make lightweight and to carry and handle simply, to shorten construction progress and to cut down on the cost of construction, and to resist the earth pressure of the surroundings sufficiently and to prevent the breaking of the surrounding soil when burying in the earth. An embedded rain gutter structure comprises an external wall(10) having separable first concavo-convex plates(11) on all sides and buried in the earth, an internal wall(20) having separable second concavo-convex plates(21) on all sides and inserted to the inside of the internal wall to keep at a certain distance, and a spacer bar(30) spacing out the external wall and the internal wall at a certain distance to have a space for placing concrete between the external wall and the internal wall.

Description

Embeded Waterspout Apparatus And Method For Constructing The Same}

1 is an exploded view of a buried rain gutter structure in an embodiment of the present invention.

Figure 2 is a coupling of the buried rain gutter structure in an embodiment of the present invention.

3 is a state diagram in which the rain gutter structure is buried in the ground according to an embodiment of the present invention.

Figure 4 is a cross-sectional view showing a state in which the rain gutter structure is buried in the embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

10; Outer wall portion 11; 1st uneven plate

20; Inner wall portion 21; 2nd uneven plate

30; Spacing 31; Screw

40; Connector 50; Steel grating base

60; Steel grating 100; Sewer pipe

200; nut

The present invention relates to a rain gutter for introducing rainwater or sewage into the sewage system, more specifically, the concrete between the inner and outer wall formwork formed of synthetic resin and the space between the inner and outer wall formwork is excellent in rigidity. It relates to a buried rain gutter structure and a construction method for forming a rain gutter.

Generally, rain gutters for collecting and draining rainwater that fall during rain are buried around the road. These rain gutters are buried in the ground and subjected to earth pressure, so they must have sufficient strength to support the earth pressure. Due to this background, conventional rain gutters are conventionally manufactured in a factory with ready-made concrete, transported to a construction site, buried, or made of concrete directly on site.

At this time, the conventional rain gutter made of concrete directly on the site is not shown, the rain gutter is installed in the position to be installed in the bottom to form a floor formwork and then cured the bottom concrete.

Next, after assembling the side wall formwork, after placing and curing the side wall concrete so that the upper jaw is provided while the connecting pipe is connected to the main sewer pipe, the steel grating pedestal is coupled to the upper jaw, and finally the The steel grating is completed by joining the steel grating.

However, the rain gutter construction as described above has the following problems.

First, the total amount of concrete must be installed after installing the formwork three times on the floor, wall, and upper jaw. There is a disadvantage.

Second, it is not only difficult to collect sediment during internal cleaning (dredging), but also floating materials (paper, garbage, vinyl, paper cans, etc.) are unprotected and discharged into the river through the connecting pipe, which has damaged nature. It has a disadvantage of affecting the environment and aesthetics of the road surface, such as collecting it on the sidewalk and picking it up again on the transport equipment.

Third, there are many cases of sub-construction because it is a small simple structure and the burden of construction period and construction cost is large, resulting in construction avoidance, and there is a disadvantage that quality control and construction management are difficult during construction.

Therefore, the present invention has been made to solve the above-described problems, and the steel grating pedestal through the curing of the inner and outer wall formwork formed of a synthetic resin, and the concrete after pouring concrete in the space between the inner and outer wall formwork; By combining steel grating, it is light in weight, easy to transport and handle, reduces the overall construction cost while shortening the process according to construction, and fully covers the earth and sand while it is underground. An object of the present invention is to provide a buried rain gutter structure and a construction method thereof, which can form rain gutters having excellent rigidity, such as preventing them from collapsing.

The buried rain gutter structure according to the present invention for achieving the above object is provided with a detachable first uneven plate on all four sides, the outer wall portion embedded in the ground; An inner wall portion having a removable second uneven plate provided on all sides and inserted into the outer wall to maintain a predetermined interval; A spacing bar spaced apart from the outer wall portion and the inner wall portion at a predetermined interval so as to provide a concrete placing space portion between the outer wall portion and the inner wall portion; Steel grating pedestal coupled to the upper end of the inner wall portion; And steel grading coupled to the steel grading pedestal. It includes.

And, the construction of the rain gutter structure, the step of digging in the ground which is rain gutter installation position; Separating the uneven plate provided at the lower end of the outer wall portion and the inner wall portion so that holes are formed in accordance with the direction of the main sewer pipe; Inserting an inner wall portion into the outer wall portion so as to provide a concrete pouring space portion, and spaced apart at regular intervals through a spacer rod; Inserting one end of a connection pipe into a hole formed in the outer wall part and the inner wall part and then burying it in the burried ground; Connecting the other end of the connecting pipe to a main sewer pipe, and then placing concrete and curing the outer side of the space part and the outer wall part; And combining the steel grading pedestal so as to span the concrete pouring surface at the upper end of the inner wall part after the curing, and placing the steel grating thereon; Proceeds.

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

1 is an exploded view of a buried rain gutter structure in an embodiment of the present invention, Figure 2 is a coupling diagram of a buried rain gutter structure in an embodiment of the present invention, Figure 3 is an embodiment of the present invention the rain gutter structure in the ground Figure 4 is a buried state diagram, Figure 4 shows a cross-sectional view showing a state in which the rain gutter structure is buried in the embodiment of the present invention.

1 to 4, the rain gutter structure according to the embodiment of the present invention, the outer wall portion 10, the inner wall portion 20, the separation bar 30, the connecting pipe 40, steel grating pedestal 50 And steel grading 60.

The outer wall portion 10 is a plastic formwork, the upper opening type box structure that can be buried in the ground, the first uneven plate 11 is separated by cutting the uneven portion (A) on the four sides of the bottom Consists of the concave-convex portion (B) is cut to the wall and the bottom surface so that the separation bar 30 penetrates.

The inner wall portion 20 is a plastic formwork, which is an upper opening type structure inserted into the outer wall portion 20, and the second uneven plate separated on the four sides of the bottom by cutting the uneven portion A ( 21 is configured, and the concave-convex portion B is formed on the wall surface and the bottom surface so that the separation bar 30 is penetrated, and the lower end portion of the inner wall portion 20 also includes the inner wall portion 20 on the outer wall. It is configured to bend to prevent dirt from being caught when inserted into the portion 10, as well as to facilitate the cleaning.

The spacer bar 30 is made of a plastic material so that the concrete pouring space part C is formed when the inner wall part 20 is inserted into the outer wall part 10, so that the outer wall part 10 and the inner wall part 20 are formed. Is spaced apart at regular intervals, and a threaded portion 31 is formed at both ends for the spaced apart, and the threaded portion B passes through the uneven portion B of the outer wall portion 10 and the inner wall portion 20. The fastening of the 200 is made.

The connecting pipe 40 is when the first and second uneven plates 11 and 21 are separated from the lower ends of the outer wall portion 10 and the inner wall portion 20 to form holes (not shown). , It is fitted in the hole, the position setting according to the fitting is configured to be determined by the locking jaw portion 41 provided in the center.

The steel grating pedestal 50 is a conventional structure, the steel grating (60) is raised is provided with a jaw portion that can be stretched over the edge surface, the edge surface is cast concrete into the space (B) After curing is configured to span the concrete pouring surface at the top of the inner wall portion 20.

The steel grating 60 is a structure of a net, and is configured to span the jaw provided in the steel grating pedestal 50.

The rain gutter structure of the present invention configured as described above, as shown in Figures 1 to 4 attached to the outer wall portion 10 and the inner wall portion that serves as a form of plastic material in the state that the first gutter in the rain gutter installation position The first and second uneven plates 11 and 21 provided at the lower end of the 20 are cut and separated by cutting the uneven parts A through a cutting member (eg, a knife).

Then, the outer wall portion 10 and the inner wall portion 20 is formed with a hole that can be connected to the main sewer pipe 100, respectively.

Next, after the inner wall portion 20 is inserted into the outer wall portion 10, the uneven portion B provided on the wall surface and the bottom surface of the outer wall portion 10 and the inner wall portion 20 is cut off (eg Cut through a knife or the like to form a through hole (not shown), and then penetrate the spaced bar 30 made of a plastic material through the through hole, respectively, and are provided at both ends of the spaced bar 30. The nut 200 is fastened to the threaded portion 31.

Then, the inner wall portion 20 is a concrete pouring space portion (C) spaced at regular intervals by the spacer rod 30 in the outer wall portion 10 is formed.

Next, one end of the connecting pipe 40 is inserted into the hole formed in the outer wall part 10 and the inner wall part 20 so that the insertion position is determined by the locking jaw part 41, and then the connecting pipe 40 Of course, the outer wall portion 10 into which the inner wall portion 20 is inserted is embedded in the burrowed ground.

Next, after connecting the other end of the connecting pipe 40 to the main sewage pipe 100, the concrete is poured out of the space portion (C) and the outer wall portion (10).

On the other hand, when the concrete is poured as described above, the underground laying of the rain gutter structure is completed first, accordingly the steel grating pedestal 50 is placed so as to span the concrete pouring surface from the top of the inner wall portion 20 After that, the steel grating 60 is placed on the jaw portion provided in the steel grating pedestal 50.

Then, the construction of the outer wall portion 10, the inner wall portion 20 and the separation bar 30 made of the plastic material, and the rain gutter structure that firmly supports the earth pressure from the concrete pouring surface is completed, according to the rainwater on the ground Sewage is collected into the inner space of the inner wall portion 20, the collected rainwater or sewage can be drained to the sewage facility through the connection pipe 40 and the main sewage pipe (100).

Here, the outer wall portion 10 and the inner wall portion 20 can be removed through a cutting process according to the site conditions, even if the outer wall portion 10 and the inner wall portion 20 is removed, the firmness of the rain gutter structure. The box can be held firmly from the concrete pouring surface.

As described above, the present invention is to combine the steel grating pedestal and the steel grating through curing after pouring concrete in the space between the inner and outer wall formwork formed of synthetic resin and the inner and outer wall formwork. Through its light weight, it is easy to transport and handle, reduce the overall construction cost by shortening the process according to the construction, and prevents the earth and sand surrounding the collapse while fully satisfying the earth pressure when buried in the ground. The effect of forming a rain gutter excellent in robustness can be obtained.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

Claims (12)

An outer wall portion having a removable first uneven plate provided on all sides and embedded in the ground; An inner wall portion having a removable second uneven plate provided on all sides and inserted into the outer wall to maintain a predetermined interval; And, A spacing bar spaced apart from the outer wall portion and the inner wall portion at a predetermined interval so as to provide a concrete placing space portion between the outer wall portion and the inner wall portion; Rainwater gutter structure characterized in that comprising a configuration. The rain gutter structure of claim 1, wherein a steel grating is coupled to an upper end of the inner wall portion. The rain gutter structure of claim 2, further comprising a steel grating pedestal on which the steel grating is placed on an upper end of the inner wall portion. The rain gutter structure of claim 1, wherein the outer wall portion, the inner wall portion, and the spacer rod are made of a plastic material. The method of claim 1, The first and second concave-convex plates are respectively configured to be coupled to the outer wall and the inner wall through the concave-convex portion, and the rain gutter structure is characterized in that a hole into which a connection pipe for connecting the main sewer pipe is inserted when separated from the cutting of the concave-convex portion. . The method of claim 1, Rainwater gutter structure characterized in that the outer wall portion and the inner wall portion to form a concave-convex portion to form a through hole through the cutting so that the separation rod can penetrate. 7. The rain gutter structure of claim 6, wherein both ends of the spacer bar form a screw portion to which a nut can be fastened so as to prevent flow after passing through the through hole in the outer wall portion and the inner wall portion. The rain gutter structure according to claim 5, wherein the connection pipe is formed with a locking jaw portion for checking an insertion position. The rain gutter structure of claim 7, wherein the lower end of the inner wall portion is formed to be bent to facilitate cleaning while preventing dirt from being caught. Digging underground in the rain gutter installation position; Separating the uneven plate provided at the lower end of the outer wall portion and the inner wall portion so as to form holes in accordance with the direction of the main sewer pipe; Inserting an inner wall portion into the outer wall portion so as to provide a concrete pouring space portion, and spaced apart at regular intervals through a spacer rod; Inserting one end of a connection pipe into a hole formed in the outer wall part and the inner wall part and then burying it in the burried ground; And Connecting the other end of the connecting pipe to a main sewer pipe, and then placing concrete and curing the outer side of the space part and the outer wall part; Rainwater gutter structure construction method characterized in that proceeding to. 11. The method of claim 10, further comprising: bonding a steel grating to an upper end of the inner wall portion; Rain gutter structure construction method further comprising a. 12. The method of claim 11, further comprising: coupling a steel grading pedestal to the upper end of the inner wall so as to span the concrete pouring surface, and placing the steel grating on the steel grading pedestal; Rain gutter structure construction method further comprising a.

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