KR20180037654A - Prefabricated drainage - Google Patents

Abstract

The present invention relates to a prefabricated drain. Due to characteristics of concrete moldings, when an assembling panel with rough surface and uneven thickness, an assembly unit should be tightly closed by gravel to fill gaps in an assembly space with a connecting arm. For the described above, the present invention comprises: a floor frame (10); a side wall frame (20); a floor panel (30); and a side wall panel (40).

Description

Prefabricated drainage

The present invention relates to a prefabricated drainage duct, and more particularly to a prefabricated drainage duct which is formed by a single dry molding process to form a high strength panel whose surface is smooth and durable at a thin thickness and which prevents rebar corrosion, The present invention relates to a prefabricated drainage line that is tightly closed by gravel.

Since the concrete drainage line is preliminarily manufactured in the form of a "∪" shape and is connected to a multi-stage after being transported to the construction site, the drainage passage is formed into an empty "∪" shape, There is a problem that the incidence of defects is high.

Accordingly, in the conventional art, in the case of a conventional panel made of concrete and having a pattern protruding on the wall, and a panel for connecting between the panel and the panel in the case of Patent Registration No. 10-0398961 (named as a patterned concrete drainage hole and concrete drainage installation method using the same) A technique relating to a concrete drainage port assembled with a connecting member has been disclosed.

However, due to the fact that the panel is formed of a concrete mold, the above-mentioned prior art fails to maintain the fitting accuracy with the insertion portion of the panel connecting member due to the rough surface, thick and thick uniformity, And the surface layer which finishes the panel surface, when the thickness of the panel is made 50 mm or less, the thickness of the base layer is reduced to 45 mm or less while the thickness of the base layer is 5 to 10 mm, There has been a complicated problem in the process of performing rust prevention treatment.

In addition, since the panel is assembled with a loose fit tolerance in order to assemble a panel which can not be tolerated by concrete molding, the panel is flowed after the construction, and a precipitate is generated due to leakage of water through a gap and a decrease in smoothness of the inner circumferential surface due to drainage. Since the member is formed by the H-beam to form the insert, it is difficult to handle with a heavy weight, and when the insert is closed with three sides in the construction site, the clogging up leads to the failure to insert the panel.

Accordingly, it is an object of the present invention to provide a high-strength panel having a smooth surface and durability at a thin thickness and preventing corrosion of steel bars by a single dry molding process, The present invention is directed to providing a prefabricated drain canister which is tightly closed by the backfill.

In order to achieve the above object, the present invention is characterized in that 10 to 20 parts by weight of copper slag is mixed with 100 parts by weight of a cement mixture containing cement, sand, stone and gravel to form a panel layer 40a by single dry molding A sidewall panel 40 formed by disposing a reinforcing bar 40b that has undergone anti-rust treatment inside the panel layer 40a; And a connection arm 100 assembled with the side wall panel 40 to form a sidewall of the drain hole 200 and a bottom surface to be closed by the bottom panel 200.

The connecting arm 100 includes a floor panel 30 and a side wall panel 20 which are formed of a bottom frame 10 and a side wall frame 20 and are bounded by the connecting arms 100 to form a partition of the drainpipe 200 The side wall frame 20 includes a boundary plate 22 for restricting both side ends of the side wall panel 40 and a supporting wall 22 which is in contact with one end of the boundary plate 22 to support the wall surface of the side wall panel 40 The other end of the boundary plate 22 is provided with an inner plate 24 and a retaining piece 26 for restricting the outer wall surface of the side wall panel 40 at a plurality of locations. A soil inflow port 50 is formed such that a space between the end surfaces of the panel 40 is exposed and a pressing force acts on the side wall panel 40 toward the inner plate 24 due to the back- A structure is provided in which the soil is filled in the space between the boundary plate 22 and the end face of the side wall panel 40 to generate the fixing force of the side wall panel 40 And it characterized in that formed.

The sidewall frame 20 is formed as an integral frame in which the boundary plate 22 and the inner plate 24 are joined to each other in a T shape and the boundary plate 22 is provided in the upper and lower corners of the side wall panel 40, And is located at an overlapping portion of the side wall panel 40.

The latching piece 26 positioned at the uppermost end of the boundary plate 22 of the side wall frame 20 is positioned lower than the upper end of the inner plate 24 to form the lateral entrance passage 23, 23 of the inner plate 24 while being moved in the lateral direction to determine the longitudinally assembled position.

The sidewall frame 20 further includes an extended sidewall frame 20 'extended outwardly. The sidewall panel 40 is supported by the extended sidewall frame 20', and the extended sidewall frame 20 ' An ecological space 210 is formed in the drainage channel 200 by an extended distance of the eco space 210 and an inclined passage frame 60 connecting the bottom of one side of the ecological space 210 and the upper side of the other side wall frame 20 .

In addition, in expanding the ecological space by the combination of the connection arm 100 on which the extended sidewall frame 20 'is mounted and the extended sidewall frame 20' on which the extended sidewall frame 20 'is not mounted, the extended sidewall frame 20' The side wall frame 20 of the connecting arm 100 disposed between the connecting arms 100 is extended to correspond to the extended side wall frame 20 'of the adjacent connecting arm 100 in the longitudinal direction, ').

Further, a horizontal passage frame 70 connected to an upper portion of the pair of side wall frames 20 while facing the bottom frame 10 is provided.

According to the present invention, since the side wall panel is dry-formed into a single layer of the cement mixture containing the copper slag having excellent corrosion resistance, the coating layer for protecting the steel reinforcing bars is formed thicker than 50 mm, , The gravel content is reduced by the specific gravity of the copper slag, so that the bending strength is improved, the surface roughness of the surface of the side wall panel is smoothly improved, and the moisture absorption rate of the side wall is low so that safety against moisture is excellent. Even if the sidewall panel is made thinner than the sand because the unit weight is higher than that of sand, it has the advantage of increasing the resistance to lateral pressure and increasing the bending strength by improving the fixation force due to self weight during construction.

In order to facilitate the assembly of the side wall panel at the drainage installation site, it is necessary to secure a wide spacing between the connection arms so that the clearance between the boundary plate and the side wall panel side is widely spaced, So that it is prevented from flowing even in the case of a quick break, and in particular, leakage and backflow through the gap between the connection arm and the side wall panel are prevented from being lost to the inside of the drainage duct.

In addition, the weight of the soil inlet portion is reduced to reduce the weight of the connection arm, thereby reducing the work cost and improving the workability in handling including transportation and construction.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram of a prefabricated drainage line according to an embodiment of the present invention; FIG.
2 is a perspective view showing a connection arm of a prefabricated drainage line according to an embodiment of the present invention;
FIG. 3 is a view showing an assembly state of a prefabricated drainage duct according to an embodiment of the present invention; FIG.
4 is a view showing a soil inlet of a prefabricated drainage line according to an embodiment of the present invention;
5 is a view showing a lateral access road of a prefabricated drainage line according to an embodiment of the present invention;
6 is a view showing an extended sidewall frame and a slant passage frame of a prefabricated drainage duct according to an embodiment of the present invention.
FIG. 7 is a view showing an extended sidewall frame, an inclined passage frame, and an extended connection arm of a prefabricated drainage duct according to an embodiment of the present invention; FIG.

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

The present invention relates to a prefabricated drainage duct, wherein the assembly is constructed such that when the panel is assembled with a coarse surface and a nonuniform thickness of the concrete due to the nature of the concrete molding, the prefabricated gap between the connection arm is filled up, The side wall frame 20, the floor panel 30, and the side wall panel 40 in order to facilitate the operation of the vehicle.

The side wall panel 40 according to the present invention is formed by mixing 10 to 20 parts by weight of copper slag with 100 parts by weight of a cement mixture containing cement, sand, abrasive and gravel to form a single layer to dry the panel layer 40a And a reinforcing bar 40b which has been subjected to anti-rust treatment inside the panel layer 40a. The sidewall panel 40 is prepared by mixing 15-30 parts by weight of cement, 25-40 parts by weight of sand, 10-30 parts by weight of grit, 15-30 parts by weight of gravel and 10-20 parts by weight of copper slag, , 0.01 to 2 parts by weight of an admixture and 25 to 30 parts by weight of water with respect to the weight of the cement are mixed and mixed in a mixer. Thereafter, the cement mixture is charged into a hydraulic molding machine in which the reinforcing bar 40b is placed, and the panel layer 40a is dry-formed in a single layer by applying vibration and pressure to the non-rusting reinforcing bars 40b To form the side wall panel 40. [

At this time, since the cement mixture containing the copper slag having excellent corrosion resistance is dry-formed into a single layer, the covering layer for protecting the reinforcing bars 40b is formed thicker than 50 mm to prevent corrosion of the reinforcing bars, The surface roughness of the surface layer of the side wall panel 40 is smoothly improved and the moisture absorption rate of the sand is low and safety against moisture is excellent due to the reduction of the gravel content by the specific gravity of the copper slag, And even if the side wall panel is formed to have a thin thickness, it is advantageous in that it increases the resistance to lateral pressure and increases the bending strength by improving the fixation force due to self weight during construction.

The construction of the panel layer 40a and the reinforcing bars 40b is not limited to the molding of the side wall panel 40 but may be applied to the bottom panel 30 described later.

The assembled drainage duct according to the present invention includes a connection arm 100 including a bottom frame 10 and a side wall frame 20 and a floor panel 30 And a side wall panel 40. As shown in FIG. 1, the connection arm 100 is disposed to be spaced apart in the lengthwise direction of the drainage duct 200 to support the bottom panel 30 and the end of the side wall panel 40, The reinforcing bars are placed between the bottom frames 10 of the connecting arm 100 at the site and then the concrete is laid or the bottom panel 30 is separately formed together with the side wall panel 40 and assembled in the field.

The connection arm 100 includes a floor frame 10 supporting the floor panel 30 and a pair of side wall frames 20 provided at both ends of the floor frame 10 to support the side wall panel 40 Wherein the side wall frame 20 includes a boundary plate 22 for restricting both side ends of the side wall panel 40 and an inner plate 24 which is in contact with one end of the boundary plate 22 and supports the wall surface in the side wall panel 40 . As shown in FIG. 2, the boundary plate 22 is composed of a side wall frame 20 having a T-shaped cross section in a state where one end is joined at right angles to a central portion of the inner plate 24, and structural durability against bending is secured.

The other end of the boundary plate 22 is provided with a retaining piece 26 for restricting the outer wall surface of the side wall panel 40 at a plurality of places and a retaining piece 26 between the retaining piece 26 and the boundary plate 22, A soil inlet 50 is formed to expose the interspace. The latching piece 26 is formed of a bar or a plate and is provided as a fixing means including welding and bolting at an end portion of the boundary plate 22. The latching piece 26 has a plurality of side wall panels 40 And the soil is introduced through the soil inlet 50 formed between the catches 26. [

The pressing force acts on the side wall panel 40 due to the backfilling pressure and the gap between the boundary plate 22 and the end face of the side wall panel 40 through the slurry inlet port 50 So that a fixing force of the side wall panel 40 is generated. As shown in FIG. 4, when the connecting arm 100 and the side wall panel 40 are assembled together and then the soil is inserted into the space outside the side wall panel 40, the side wall panel 40 is moved inwardly The both end portions are closely sandwiched between the inner plate 24 and the earth filler is easily filled into the space between the boundary plate 22 and the end face of the side wall panel 40 through the sandwich inflow port 50, It is closed.

The space between the boundary plate 22 and the end surface of the side wall panel 40 is widened to secure a wide space for arranging the connection arm 100 for ease of assembling the side wall panel 40 at the construction site of the drainage channel 200 Even if the end on the side of the panel 40 does not deviate in the width direction of the inner panel 24, the clearance is tightly filled by the abrasive soil, and the fixing force of the side wall panel 40 is firmly maintained, It is possible to prevent leakage and backflow of the soil through the gap between the connection arm 100 and the side wall panel 40 to the inside of the drainage duct.

The connection arm 100 is assembled to the side wall panel 40 so that the side wall frame 20 is inclined at an inclination angle so as to secure the structural safety of the drainage passage 200. After the side wall panel 40 is assembled by its own weight There is a problem in that the space between the inner plates 24 on the opposite side is inevitably separated from the inner plate 24 while the side wall panel 40 is pressed against the inner plate 24 by a separate fixing means. The sidewall panel 40 is closely adhered to the inner panel 24 by a simple operation process of filling up the backfill so that the sidewall panel 40 is tightly fixed to the inner panel 24, There is a fixed advantage.

The side wall frame 20 is formed as an integral frame in which the boundary plate 22 and the inner plate 24 are joined to each other in a T shape and the boundary plate 22 is provided on the upper and lower corners of the side wall panel 40, And is located at the overlapping portion of the side wall panel 40. 2 to 3 show a state in which two sidewall panels 40 are inserted in a multi-stage manner. In this case, the latching pieces 26 are arranged at the lower edge of the lower sidewall panel 40 and the lower edge of the upper sidewall panel 40, And the top and bottom sidewall panels 40 are overlapped with each other, and the other space is opened to an empty space to form the soil inlet 50.

Accordingly, the weight of the soil inlet 50 is reduced to reduce the weight of the connection arm 100, thereby improving workability in handling, including reduction of the material cost, transportation, and construction.

The latching piece 26 positioned at the uppermost end of the boundary plate 22 of the side wall frame 20 is positioned lower than the upper end of the inner plate 24 to form the lateral entrance passage 23, 23 so as to be engaged with the inner plate 24 to determine the longitudinally assembled position. As shown in FIG. 5, the upper latching piece 26 is disposed lower than the inner plate 24 so as to form a transverse runway 23 movable in the lateral direction to assemble the side wall panel 40.

The side wall panel 40 is stopped by hanging on the inner panel 24 after passing through the lateral ramp 23 by the operation of traversing the side wall panel 40 in the lateral direction and moving in the lateral direction, And is simply assembled between the inner plate 24 and the engaging piece 26. [ Since the inner panel 24 serves as a stopper for determining the assembling position at the time of assembling the side wall panel 40, assembling work can be performed by an unskilled worker.

6, the sidewall frame 20 further includes an extended sidewall frame 20 'extended outwardly connected thereto, the sidewall panel 40 is supported by the extended sidewall frame 20', and the extended sidewall frame 20 ' An inclined passage frame 60 connecting the bottom of one side of the ecological space 210 and the top of the other side wall frame 20 is formed in the drainage passage 200 by an extended distance Respectively. The extended sidewall frame 20 'is formed so as to receive an end of the side wall panel 40 in the same manner as the sidewall frame 20 and is detachably attached to the end of the sidewall frame 20 by fixing means such as bolting.

The connection arm 100 having the extended sidewall frame 20 'is disposed in the drainage passage 200 and the sidewall panel 40 is installed in the extended sidewall frame 20' And the eco space 210 is recessed into the sidewall of the drainage channel 200 to form a space that does not directly affect the internal flow velocity. Thus, the eco-space 210 is used as an ecological habitat, (60).

Since the one end of the inclined passage frame 60 is fastened to the side wall frame 20 of the connection arm by a simple fixing means such as bolting, the construction is simple. Thus, the connecting arm 100, the extended side wall frame 20 ' The inclined passage frame 60 is modularized to selectively form a vegetation space selectively in a section required for the drainage path 200 construction.

7, in extending the ecological space by the combination of the connection arm 100 on which the extended sidewall frame 20 'is mounted and the extended sidewall frame 20' on which the extended sidewall frame 20 'is not mounted, The side wall frame 20 of the connection arm 100 disposed between the connection arms 100 is extended to correspond to the extended side wall frame 20 'of the adjacent connection arm 100 in the longitudinal direction, (100 '). The connecting arm 100 ', the extended sidewall frame 20' and the inclined passage frame 60 are further provided with an extension connection arm 100 'in a modular configuration, and the number of the extension connection arms 100' Lt; RTI ID = 0.0 > 210 < / RTI >

Further, a horizontal passage frame 70 connected to the upper portions of the pair of side wall frames 20 while facing the bottom frame 10 is provided. The horizontal passage frame 70 is constructed such that the ecological creature traverses the drainage passage 200. The vegetation space is formed at the center and both ends of the horizontal passage frame 70 are simply installed with fastening means such as bolting on the side wall frame 20 . That is, the modular construction of the connection arm 100, the extended side wall frame 20 ', the inclined passage frame 60 or the combination of the connection arm 100, the extended side wall frame 20', the inclined passage frame 60, And further includes a horizontal passage frame 70 in a modular configuration of the connection arm 100 'combination.

Accordingly, it is possible to easily install the horizontal passage frame 70 and to change the position of the horizontal passage frame 70 in consideration of the site conditions according to the installation topography of the drainage passage 200, and to connect both ends of the upper portion of the side wall frame 20, By having the antiparallel quadrilateral structure, the structural durability of the connecting arm 100 is improved, and the supporting structure supporting the topography at the time of construction is performed together with the terrain where the earth pressure acts strongly on the outside.

10: bottom frame 20: side wall frame
30: floor panel 40: side wall panel
50: Sewer inlet 60: Slope passage frame
100: connecting arm 200: drain

Claims (7)

10 to 20 parts by weight of copper slag is mixed with 100 parts by weight of a cement mixture containing cement, sand, stone and gravel to form a panel layer 40a by single dry molding, and the inside of the panel layer 40a is subjected to anti- A side wall panel 40 formed by arranging the reinforcing bars 40b;
And a connection arm (100) assembled with the side wall panel (40) to form a sidewall of the drainage channel (200), and a floor surface is closed by the floor panel (200). The method according to claim 1,
The connecting arm 100 includes a floor panel 30 and a side wall panel 40 which are composed of a bottom frame 10 and a side wall frame 20 and are bound between the connecting arms 100 to form a partition of a drainage channel 200. [ ≪ / RTI >
The side wall frame 20 includes a boundary plate 22 for restricting both side ends of the side wall panel 40 and an inner plate 24 which is in contact with one end of the boundary plate 22 and supports the wall surface of the side wall panel 40 And,
The other end of the partition plate 22 is provided with a retaining piece 26 for restricting the outer wall surface of the side wall panel 40 at a plurality of places and a space between the edge plate 22 and the end face of the side wall panel 40 between the retaining pieces 26. [ The soil inlet 50 is formed to be exposed,
The pressing force acts on the side wall panel 40 due to the backfilling pressure and the gravel-like material is filled in the space between the boundary plate 22 and the end face of the side wall panel 40 through the soil inlet 50 And a sidewall panel (40) fixing force is generated on the side wall panel (40). The method according to claim 1,
The sidewall frame 20 is formed as an integral frame in which the boundary plate 22 and the inner plate 24 are joined to each other in a T shape and the boundary plate 22 is provided on the upper and lower edges of the side wall panel 40, (40) are overlapped with each other. The method according to claim 1,
The latching piece 26 located at the uppermost end of the boundary plate 22 of the side wall frame 20 is positioned lower than the upper end of the inner plate 24 to form the lateral entryway 23 and the side wall panel 40 is connected to the lateral entryway 23, And the longitudinally assembled position is determined by being hooked on the inner plate (24) while being moved in the lateral direction through the guide plate (20). The method according to claim 1,
The sidewall frame 20 further includes an extended sidewall frame 20 'extended outwardly. The sidewall panel 40 is supported by the extended sidewall frame 20', and the extended sidewall frame 20 ' An ecological space 210 is formed inside the drainage passage 200 by an extended distance and an inclined passage frame 60 connecting the bottom of one side of the ecological space 210 and the upper side of the other side wall frame 20 is provided A prefabricated drain. 6. The method of claim 5,
In expanding the ecological space by the combination of the connection arm 100 on which the extended sidewall frame 20 'is mounted and the extended sidewall frame 20' on which the extended sidewall frame 20 'is not mounted, The side wall frame 20 of the connecting arm 100 disposed between the arms 100 is extended to correspond to the extended side wall frame 20 'of the adjacent connecting arm 100 in the longitudinal direction, The prefabricated drain. 7. The method according to any one of claims 1 to 6,
And a horizontal passage frame (70) connected to an upper portion of the pair of side wall frames (20) so as to face the floor frame (10).

Images