KR100824215B1 - Jointed facilities keeping rainwater - Google Patents

Abstract

A jointed facilities keeping rainwater is provided to secure compressive stiffness and to prevent deformation by installing support members next to a bottom plate. A jointed facilities keeping rainwater comprises perforated pipes(10), outer surface joint members(40), horizontal edge joint members(50), vertical edge joint members(60), corner joint members(70), reinforcing joint members(80), inner intermediate joint members, and water proof panels(30). The perforate pipes are provided with a plurality of holes around the outer peripheral surface. The outer surface joint members, which are installed on the outer surface of a cube, interconnect horizontal perforated pipes, vertical perforated pipes and diagonal perforated pipes with one another, including a plurality of connection holes on one surface and a plurality of insertion joint parts to which the distal end portions of the perforated pipes are inserted. Both horizontal edge joint member and vertical edge joint member, which are located at the edge where two surfaces meet, respectively include a plurality of connection holes on one surface and insertion joint parts. The corner joint members, which are located at the corner where three surfaces meet, respectively include a plurality of connection holes on one surface and insertion joint parts. The reinforcing joint members are installed on the outer surface of the cube in a diagonal direction to secure compressive stiffness and to prevent deformation due to long time stress and to support the perforated pipes. The inner intermediate joint members are located inside the cube and provided with insertion joint portions for interconnecting the perorated pipes installed vertically and horizontally. The water proof panels are fastened to the outer surfaces of the cube by driving bolts into the connection holes.

Description

Prefabricated Rainwater Storage Device {JOINTED FACILITIES KEEPING RAINWATER}

1 is a perspective view showing the structure of the prefabricated rainwater storage device of the present invention.

Figure 2 is an enlarged view "A" part of Figure 1 with the waterproof panel removed.

Figure 3 is a cross-sectional view showing the structure of the inventor prefabricated rainwater storage device.

Figure 4a is a perspective view showing the structure of the outer surface connecting member that is the main portion of the present invention.

Figure 4b is a rear perspective view showing the structure of the outer surface connecting member that is the main portion of the present invention.

Figure 5a is a perspective view showing the structure of a horizontal corner connecting member that is the main portion of the present invention.

Figure 5b is a rear perspective view showing the structure of the horizontal corner connecting member that is the main portion of the present invention.

Figure 6a is a perspective view showing the structure of a vertical corner connecting member that is the main portion of the present invention.

Figure 6b is a rear perspective view showing the structure of the vertical corner connecting member that is the main portion of the present invention.

Figure 7a is a perspective view showing the structure of the stem connecting member that is the main portion of the present invention.

Figure 7b is a rear perspective view showing the structure of the stem connecting member that is the main portion of the present invention.

Figure 8a is a perspective view showing the structure of a reinforcing pipe connecting member that is the main portion of the present invention.

Figure 8b is a side view showing the structure of the reinforcing pipe connecting member that is the main portion of the present invention.

Figure 9a is a perspective view showing the structure of the inner middle connecting member for connecting the hole tube installed inside the main portion of the present invention.

Figure 9b is a side view showing the structure of the inner middle connecting member for connecting the hole tube installed inside the main portion of the present invention.

10 is a cross-sectional view showing a state of use of the present invention.

11 is a partial perspective view showing another embodiment of the present invention.

Figure 12 is a partial perspective view showing another embodiment of the connection structure of each connecting member and the waterproof panel which is the main part of the present invention.

※ Explanation of code for main part of drawing ※

10: merit pipe

30: waterproof panel

40,50,60,70,80,90: connecting member

40a, 50a, 60a, 70a, 80a, 90a: Insertion connection part

41, 51, 61, 71, 81, 91: fixed connection piece

42,52,62,72,82,92: Detachable Connecting Pieces

43,53,63,73,83,93: groove

44,55,66,77,88,99

The present invention relates to a prefabricated rainwater storage device, and more particularly, to form a framework of the rainwater storage device with a freely moved rainwater pipe while securing a storage space for the rainwater, and is formed by connecting adjacent hole pipes to each other with a plurality of connecting members. In the prefabricated rainwater storage device, it is possible to strengthen the compressive stiffness and prevent deformation by long-term strength by improving the supporting force on the bottom plate and its side, and to use the waterproof panel or drainage panel according to its external purpose. It is about.

Generally, due to the increase of buildings or the increase of the surface pavement rate, rainwater flows into sewer or river at once without heavy flooding during heavy rains, and flooding may occur as a result of exceeding inflow capacity.

On the other hand, a small inflow of rivers can lead to deterioration in water quality and depletion of groundwater. For this reason, technology has been developed to store rainwater in rainwater storage facilities consisting of concrete or synthetic resin materials that have been cast in place and control the amount of runoff into rivers.

However, the rainwater storage facility, which is composed of the concrete or synthetic resin material and is constructed by on-site casting, has a problem in that work efficiency is degraded due to a delay in the construction period due to on-site casting, and thus, the period of installing the rainwater storage facility is long.

The present invention has been made in view of the above-described conventional problems, the object of this is to install in a short time by installing directly assembled at the site to install the rainwater storage facility, the efficiency of the installation work is improved, the movement of rainwater into a free pipe By forming the framework of the rainwater storage device, rainwater can be stored in the perforated pipes that make up the frame, so it is easy to secure the storage space of rainwater, and the support member is formed on the bottom plate and its side to strengthen the compressive stiffness and prevent deformation by long-term strength. It is to provide a prefabricated rainwater storage device that can be used to prevent and to attach a waterproof panel or a drain panel according to the purpose of the device.

An object of the present invention is a prefabricated rainwater storage device, a plurality of through-holes formed on the outer peripheral surface; It is installed on the part that forms the outer surface of the cube and connects the horizontal hole, the vertical hole and the vertical hole which are installed diagonally, and the outer surface is formed by forming an insert connection part formed with a plurality of coupling holes on one side and the end of the hole is inserted. Absence; A horizontal edge connecting member and a vertical edge connecting member, each of which is formed at a corner portion adjacent to two faces when forming an outer surface of the hexahedron, has an insertion connection portion into which an end of the perforated tube is inserted, and a plurality of coupling holes are formed on one surface thereof; When the outer surface of the hexahedron is formed three sides are adjacent to the vertex and the insertion portion is formed in the insertion connecting portion is inserted into the end of the perforated tube and the coupling portion is formed with a plurality of coupling holes on one surface; A reinforcing connection member installed diagonally at a portion forming an outer surface of the hexahedron to support the perforated pipe to strengthen the compressive rigidity and prevent deformation due to long-term strength; An inner middle connecting member forming an insertion connecting portion connecting the perforated tube installed in the transverse direction and the new direction on the inner side of the hexahedron; It is achieved by a prefabricated rainwater storage device characterized in that it comprises a waterproof panel attached to the coupling hole by a bolt to form the outer surface of the cube.

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

Figure 1 is a perspective view showing the structure of the prefabricated rainwater storage device of the present invention, Figure 2 is an enlarged view "A" of Figure 1 with the waterproof panel removed, Figure 3 shows the structure of the prefabricated rainwater storage device of the present invention According to the plan view in accordance with the present invention consists of a perforated tube 10, the connection member and the waterproof panel 30 roughly.

More specifically, as shown in FIG. 4, a plurality of through-holes form a hexahedron with a perforated tube 10 formed on an outer circumferential surface thereof, but a horizontal perforated tube 10 and a vertical perforated tube (10) 10) and by connecting the perforated tube 10 is installed diagonally formed by the outer surface connecting member 40 formed by forming a plurality of coupling holes 44 on one surface and the insertion connecting portion (40a) is inserted into the end of the perforated tube The outer surface part is formed.

The insertion connecting portion (40a) is composed of a separable connecting piece 42 which is separated from the fixed connection piece 41 formed integrally with the connecting member 40, the detachable connecting piece 42 is preferably attached by an adhesive and the detachable connecting piece One end of the 42 has a structure that is fitted into the groove 43.

Meanwhile, as shown in FIGS. 5 and 6, when the hexahedron is formed of the perforated tube 10, two surfaces are installed at adjacent corners, and an insertion connection portion 50a and 60a into which the end of the perforated tube 10 is inserted. ) Is formed and a horizontal corner connecting member 50 and a horizontal corner connecting member 60 formed by a plurality of coupling holes 55 and 66 are formed on one surface thereof, as shown in FIG. 7. When the surface is formed, three surfaces are installed at the adjacent vertices and the insertion portion 70a is formed to insert the end of the perforated tube 10 and the coupling portion member 70 formed with a plurality of coupling holes 77 on one surface. By the hole tube 10 is configured to be connected.

The insertion connecting portions 50a, 60a, 70a are separated connecting pieces 52, 62 separated from the fixed connecting pieces 51, 61, 71 formed integrally with each connecting member 50, 60, 70. (72) and the separable connecting pieces 52, 62 and 72 are preferably attached by an adhesive, and one end of the separable connecting pieces 52, 62 and 72 is recessed 53 and 63. It consists of a structure fitted to (73).

Meanwhile, as shown in FIG. 8, a reinforcement connecting member 80 supporting the perforated pipe 10 to be diagonally installed at a portion forming the outer surface of the hexahedron to strengthen compressive rigidity and prevent deformation due to long-term strength is provided. ) Is installed.

As shown in FIG. 9, an inner middle connecting member 90 is formed on the inner side of the hexahedron to form an insertion connecting portion 90a for connecting the perforated tube 10 installed in the horizontal and vertical directions. The waterproof panel 30 is attached to the coupling hole 99 by bolts to form the outer surface of the cube.

On the other hand, each of the insertion connecting portion (80a) (90a) is composed of a separate connecting piece (82) (92) separated from the fixed connection piece (81) (91) formed integrally with the connecting member (80) (90) and the detachable connection piece Silver is preferably attached by an adhesive and consists of a structure in which one end of the detachable connecting piece is fitted into the grooves 83 and 93.

Each of the insertion connections 40a, 50a, 60a, 70a, 80a, 90a is a fixed connection piece 41, 51, 61, 71, 81, 91 and a separate connection piece 42 ( 52) (62) (72) (82) (92) are separated into the reason why the prefabricated rainwater storage device of the present invention is directly assembled at an installation site when two or more parts are assembled at the same time without assembling order and the hollow pipes 10 forming a frame To facilitate the connection of the adjacent hole (10), wherein the fixed connection piece (41) (51) (61) (71) (81) (91) is located in the lower portion of the hole (10) to be connected desirable. The reason is to maximize support.

As shown in FIG. 11, the waterproof panel 30 may be used as a drainage panel 30a in which a plurality of through holes are formed. In this case, the waterproof panel of the portion located on the upper surface of the hexahedron is not installed. .

Referring to the operation and effect of the present invention configured as described above, as shown in Figure 10, first, after assembling the prefabricated rainwater storage device (1) to which the technique of the present invention is applied or assembling the prefabricated rainwater storage device (1) After excavation and excavation at the place where the rainwater storage device 1 is to be installed, construct the concrete foundation to flatten the excavated inner surface, install the sheet on the floor, and then install the rainwater storage device 1 assembled. The assembled rainwater storage device 1 is constructed by connecting the external facilities, that is, the manholes 600 and 700 and the connection pipes 400 and 500, and seats 200 on the sides and upper surfaces of the completed rainwater storage device. Construct and bury in construction.

The assembled rainwater storage device 1 of the present invention installed as described above is stored in the inner space of the waterproof panel 30 when the rainwater flows into the assembled rainwater storage device. It also flows inward.

In other words, when the space is formed by the waterproof panel 30, since the air hole tube 10 is formed in the formed inner space, the space area is reduced as much as the installation of the air hole tube 10, thereby storing rainwater. Since the storage area is reduced by the installation area of the perforated pipe 10, the rainwater flows into the perforated pipe 10 to expand the rainwater storage space, thereby obtaining the effect of storing the rainwater in the perforated pipe 10.

On the other hand, although not shown in the drawing, the discharge port is formed in the lower portion of the assembled rainwater storage device 1, and the rainwater is discharged immediately in a small amount of rainwater normally, but the amount of rainwater flows in at a time to exceed the inflow allowance. When the rainwater overflowing to the upper part is installed to use immediately.

On the other hand, when the rain load is applied to the assembled rainwater storage device or the shear load due to the shaking of the ground is applied, the compressive stiffness is strengthened by the perforated pipes installed diagonally to reinforce the bearing capacity of the horizontal and vertical perforated pipes. It is to prevent deformation.

On the other hand, as shown in Figure 11, the purpose of storing the rain outside, that is, the purpose of storing the panel to be attached to the frame using the waterproof panel 30, but a plurality of through-holes to introduce the incoming rainwater into the ground The drainage panel 30a formed can be attached and used.

On the other hand, the connection structure of each connecting member and the waterproof panel is described as a coupling method formed by a coupling hole and a bolt formed inside the spiral in one embodiment, but as shown in FIG. 12, a coupling protrusion is formed on one side of the waterproof panel. It is also possible to change the structure so that the engaging projection can be used in the coupling hole.

The prefabricated rainwater storage device of the present invention configured and used as described above can be installed in a short time by directly assembling and installing the rainwater storage facility, improving the efficiency of installation work, and storing rainwater in an air pipe free of rainwater movement. By forming the frame of the device, rainwater can be stored in the perforated pipes that make up the frame, so it is easy to secure the storage space of the rainwater, improve the bearing capacity of the bottom plate and its sides, strengthen the compressive stiffness, and prevent deformation by long-term strength. According to the purpose of the device there is an effect that can be used to attach a waterproof panel or a drain panel.

Claims (5)

In the prefabricated rainwater storage device, A perforated tube having a plurality of through holes formed on an outer circumferential surface thereof; It is installed on the part that forms the outer surface of the cube and connects the horizontal hole, the vertical hole and the vertical hole which are installed diagonally, and the outer surface is formed by forming an insert connection part formed with a plurality of coupling holes on one side and the end of the hole is inserted. Absence; A horizontal edge connecting member and a vertical edge connecting member, each of which is formed at a corner portion adjacent to two faces when forming an outer surface of the hexahedron, has an insertion connection portion into which an end of the perforated tube is inserted, and a plurality of coupling holes are formed on one surface thereof; When the outer surface of the hexahedron is formed three sides are adjacent to the vertex and the insertion portion is formed in the insertion connecting portion is inserted into the end of the perforated tube and the coupling portion is formed with a plurality of coupling holes on one surface; A reinforcing connection member installed diagonally at a portion forming an outer surface of the hexahedron to support the perforated pipe to strengthen the compressive rigidity and prevent deformation due to long-term strength; An inner middle connection member forming an insertion connection portion connecting the perforated tube installed in the horizontal direction and the vertical direction on the inner side of the hexahedron; Prefabricated rainwater storage device characterized in that it comprises a waterproof panel attached to the coupling hole by a bolt to form the outer surface of the cube. The pre-fabricated rainwater storage device according to claim 1, wherein each of the insertion connecting portions is made of a detachable connecting piece separated from the fixed connecting piece integrally formed on the connecting member, and the detachable connecting piece is attached by an adhesive. The prefabricated rainwater storage device according to claim 2, wherein one end of the detachable connecting piece is fitted into the groove. The prefabricated rainwater storage device according to claim 1, wherein the waterproof panel is a drainage panel having a plurality of through holes. According to claim 1, Prefabricated rainwater storage device characterized in that the coupling projection is formed on one side of the waterproof panel by the coupling projection is fitted into the coupling hole of each connecting member.

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