KR102150402B1 - Conduit trench for draining water of the underground building structure - Google Patents

Abstract

The pipe trench for a drainage passage of an underground building structure according to the present invention is made of a bulk mold compound (BMC) material, and can be continuously bonded to the next trench and by a force-fitting method, and a pipe structure for preventing slipping is projected on the bottom surface. It is formed so that it is easy to match the straight shape of the trenches connected to each other when installing the trench for the drainage channel on the bottom layer of the underground building structure, and it is easy to set an appropriate gradient. The wing is formed so that even if the finished concrete dries and shrinks after pouring the finished concrete, the occurrence of cracks around the trench can be minimized.

Description

Conduit trench for draining water of the underground building structure

The present invention relates to a pipe trench for a drainage passage of an underground building structure, and in particular, it is made of a bulk mold compound (BMC) material such as fiber reinforced plastic (FRP), and can be continuously bonded with the trench that follows. The pipe structure to prevent slipping is protruded at the bottom, so it is easy to match the straight shape of the trenches connected to each other when installing the pipe trench for drainage on the bottom layer of the underground building structure, and it is easy to set an appropriate gradient. A pipe trench for drainage passages in underground building structures that has a wing part with a'b'-shaped bend at the top edge to minimize the occurrence of cracks around the trench even if the finished concrete dries and shrinks after pouring the finished concrete. It is about.

In the case of buildings with underground spaces such as apartments and buildings, drainage facilities are provided to drain water generated from the basement. At the bottom of the basement building structure, a drainage plate is laid over the concrete floor, and a drainage trench is installed on it to collect and collect the water generated from the basement and water from outside, and discharge it to the outside through a drainage pump. A trench for drainage is installed on the bottom of the building structure.

1 shows a state in which a conventional trench 120 made of concrete is installed in an underground building structure 100. Referring to FIG. 1, in the case of a building having an underground parking lot or other underground structure, such as an apartment and a large building, floor concrete 102 is poured on the lowest floor of the basement, and the floor concrete 102 has a wall 101 Is installed as a reinforced concrete structure, and a drain plate 103 for draining the incoming groundwater is installed on the floor concrete 102. The drain plate 103 is a member having a curved cross section like an egg plate, and a space existing between the floor concrete 102 functions as a drain space 103a. After installing the drain plate 103, a trench 120 made of concrete is installed after hitting the mortar 104, and the trench 120 made of concrete material used in the industry has a thickness of 3 to 4 cm. Because it is only a reinforcement bar, there is a disadvantage that it is easily broken and crushed by external impacts because it is not possible to put rebar in it.

These concrete trenches 120, which have been used in the past, are usually manufactured in units of 1 meter, and one of them is heavy enough to reach 20 kilograms, so it takes a lot of freight for a transport truck, and is often broken due to vibration during transport. In addition, in the process of transporting a heavy trench to the construction site and then to the underground interior space with a forklift, there are many cases of bumping and breaking. In the case of a concrete trench, the final loss ratio reaches 5-10%. It is known to be large.

After first placing the trench 120 made of concrete on the mortar, a plurality of trenches 120 must be attached in succession in the longitudinal direction, but it was difficult to align the trenches in a straight line because there was no mechanical coupling relationship between them. There may be gaps in the joints between trenches, and in this case, there is a drawback of water leakage later. And in order to allow water to flow through the trenches, it is desirable to have a gradient of about -2°, and it was a very difficult task to consistently adjust the gradient of the concrete trenches on the mortar while changing their postures.

After completing the installation of the trench 120 made of concrete, a wire mesh is installed and the finished concrete 107 is poured up to the height of the trench 120 to make the floor surface flat.

In FIG. 1, the wall drainage plate 108 installed on the front surface of the wall 101 is a facility for draining the wall, and reference numeral 108b denotes the cover plate 108b coupled to the inside of the wall drainage plate 108, and reference numeral 108a Indicates the molding finish. Further, reference numeral 105 denotes a drainage plate at the lower end of the wall installed on the wall 101 side to correspond to the height of the trench 120.

In order to solve the above problems, the present invention is made of a bulk mold compound (BMC) material such as fiber reinforced plastic (FRP) and provided with a fitting protrusion and a fitting groove for enabling a mechanical force-fitting method. It is an object of the present invention to provide a conduit trench for a drainage channel of an underground building structure so that they can be mechanically inserted and joined together.

In addition, in the present invention, when a pipe structure for preventing slipping is protruded on the bottom surface, it is easy to set an appropriate gradient between the trenches connected when installing a pipe trench for a drainage channel on the bottom layer of an underground building structure. The purpose of providing a conduit trench for drainage passages of underground building structures is to minimize the occurrence of cracks around the trench even if the finished concrete dries and shrinks after pouring the finished concrete due to the formation of a wing with a'b'-shaped bent part. To do.

In order to achieve the above object, the pipe trench for a drainage passage of an underground building structure provided by the present invention has a pipe structure for preventing slipping and adjusting the height above the mortar at the bottom, and a fitting protrusion 6b on the bottom surface at one end in the longitudinal direction. ) Is formed to protrude, and a connecting portion 6 is integrally formed at the other end in the longitudinal direction, and a fitting groove 6a corresponding to the fitting protrusion is formed on the bottom surface of the connecting portion, so that two conduit trenches are formed in the longitudinal direction. When it is installed butted, the fitting protrusion 6b of one conduit trench is fitted and coupled to the fitting groove 6a of another conduit trench.

In addition, the pipe trench for a drainage passage of an underground building structure provided by the present invention has a wing portion 4 formed toward the outside at the upper end of the side surface 3 integrally formed with the bottom surface 2, and the wing portion 4 At the end, a'b'-shaped bent part (4b) is formed, and it is characterized by exerting a function of supporting and holding the contraction of the finished concrete when the finished concrete is poured around the pipe trench.

The conduit trench for a drainage passage of an underground building structure according to the present invention has fitting projections and fitting grooves at both ends in the longitudinal direction so that the connected trenches can be mechanically tightly bonded together in a force-fitting method, so that the trenches are correctly aligned in a straight line. It has the advantage of being very easy to install.

And the pipe structure for the drainage passage of the underground building structure according to the present invention is coupled to the bottom of the bottom surface, and the pipe structure is embedded in the mortar when the pipe structure of the present invention is installed after mortaring at the trench construction site. In addition to being adjustable, the pipe structure has a function of preventing slipping, preventing it from being pushed out of the original installation position when the finished concrete is poured afterwards.

Therefore, if the pipe trench for the drainage passage of the underground building structure according to the present invention is used, the work of installing the pipe trench for the drainage passage in the inner space of the basement can be performed more easily, and it is made using BMC material, which is a material such as FRP. Since it is not broken by impact, it has the advantage of minimizing the loss that occurs during transportation or installation.

In addition, since the pipe trench for a drainage channel according to the present invention is made of a BMC material, the bending stiffness is very high, so it is very easy to install the trenches straight in a straight shape during the trench installation process.

1 shows a state in which a conventional trench 120 made of concrete is installed in an underground building structure 100.
2 and 3 are perspective views of a conduit trench 1 for a drainage passage of an underground building structure according to the present invention, and FIG. 2 is a view showing a conduit trench 1 of the present invention viewed from above in a perspective direction, 3 is a view showing a conduit trench 1 of the present invention as viewed from below in a perspective direction.
4 is a perspective view showing a state in which two conduit trenches 1 of FIGS. 2 and 3 are connected in a straight line.
5 and 6 are cross-sectional views of the coupling portion of the conduit trenches 1 cut along line XX in FIG. 4, and FIG. 5 is a fitting protrusion 6b formed at one end of one conduit trench 1 in another conduit. The relationship is shown by being fitted into the fitting groove 6a formed at the other end of the trench 1, and FIG. 6 shows a state in which the conduit trenches 1 of FIG. 5 are completely connected to each other.
7 is a plan view of the conduit trench 1 of FIGS. 2 and 3, showing a plan view as viewed from the direction ⓐ shown in FIG. 2.
Fig. 8 is a side view of the conduit trench 1 of Figs. 2 and 3, showing a side view as viewed from the direction ⓑ shown in Fig. 2.
9 is a cross-sectional view of the conduit trench 1 according to the present invention, of which Fig. <a> shows a cross-sectional view as viewed from the direction ⓒ shown in Fig. 2, and Fig. <b> is a cross-sectional view of the connection part 6 Shows the form.
Fig. 10 is another cross-sectional view of the conduit trench 1 according to the present invention, showing a state cut along line YY in Fig. 8.
11 to 15 sequentially show a process of installing a pipe trench 1 for a drainage channel according to the present invention on the floor in the inner space of the underground building structure 100.
16 shows a state in which a pipe trench 1 for a drainage channel according to the present invention is installed on the floor adjacent to the wall of the underground building structure 100, and the finished concrete 107 is poured according to the height of the pipe trench 1 do.
Fig. 17 is a more enlarged view of the pipe trench 1 in the cross-sectional view of Fig. 15, and when the finished concrete 107 is dry and hardened and receives a force that contracts in the direction of ①, the pipe trench 1 of the present invention The bent part (4b) with a'b'-shaped cross-section in the wing part (4) of) exerts a force to hold the concrete in the direction of ②, thereby preventing the occurrence of cracks in the concrete 107 around the trench (1). Show what you can do.
18 is a diagram showing a pipe trench 1a according to a second embodiment of the present invention, in which a horizontal wing extension portion in which at least one side of the wing portion 4 is previously treated with a sheath or joint 42 at predetermined intervals ( 40) shows the integrated structure.
FIG. 19 shows an example of installing the pipe trench (1a) of FIG. 18 in the inner space of an underground building structure with columns protruding from the wall, and columns protruding from the wall surface 101 of the underground building structure 100 In accordance with the shape and position of (101a), by removing some of the grilles 41 of the horizontal wing extensions 40 of the pipe trench 1a, a pipe trench that can be directly attached to the wall according to the protruding structure of the wall ( An example of 1a) will be described.
20 and 21 show a pipe trench 1b for a drainage passage of an underground building structure according to a third embodiment of the present invention, and the horizontal blade extension of the pipe trench 1a of FIG. 19 according to the second embodiment. It will be described that the two-dimensional grill 410 is formed on the part 40 so that the grilles 410 can be removed as necessary in the horizontal and vertical direction.
22 is a diagram showing a pipe trench 1c for a drainage passage of an underground building structure according to a fourth embodiment of the present invention, and a structure in which a grating seat portion 33 is provided so that a cover with a grating can be coupled. Shows.
Fig. 23 is an exploded perspective view showing a relationship in which the grating cover 50 is coupled to the upper portion of the conduit trench 1c of Fig. 22;
Fig. 24 is a cross-sectional view of the grating type conduit trench 1c shown in Fig. 23 in the width direction.
25 is a cross-sectional view of the grating cover 50 shown in FIG. 23 in the width direction.
Fig. 26 is a plan view when the grating cover 50 shown in Fig. 23 is viewed from above.

2 and 3 are perspective views of a conduit trench 1 for a drainage passage of an underground building structure according to the present invention, and FIG. 2 is a view showing a conduit trench 1 of the present invention viewed from above in a perspective direction, 3 is a view showing a conduit trench 1 of the present invention as viewed from below in a perspective direction.

Referring to FIG. 2, the conduit trench 1 according to the first embodiment of the present invention is an open type conduit trench that is not covered with a cover, and has a structure in the form of a'C' shape with an open upper end. And first reinforcing ribs 5 for reinforcing rigidity are installed outside the bottom surface 2. At one end in the longitudinal direction, the connecting portion 6 is formed integrally with the remaining portions, and a fitting groove 6a is formed on the bottom surface of the connecting portion 6. The fitting groove 6a is shown in a rectangular shape, and in addition, it is possible to form various shapes such as a long groove shape.

A top inclined portion 4a bent at an angle of about 30 to 60° is provided at the top of the side surface 2 of the conduit trench 1, and a bent portion 4b is formed outwardly following the top inclined portion 4a. have. The upper inclined portion 4a and the bent portion 4b may be collectively referred to as a wing portion 4, and the wing portion 4 slightly extends outward from the'C'-shaped trench structure.

Referring to FIG. 3, on the bottom of the conduit trench 1, first bottom pipes 21 and second bottom pipes 22 having a pipe structure are also integrally formed with the bottom surface 2 of the trench. . The bottom pipes 21 and 22 may be different in size and shape, but have the same function and structure in that the lowermost end is open and the inside is empty.

The conduit trench 1 according to the present invention is made of a bulk mold compound (BMC), which is the same kind of material as fiber reinforced plastic (FRP). BMC, like FRP, is an injection molding by mixing long fibers made by cutting fibers including synthetic resin fibers or glass fibers to a length of 3 to 5 cm, kneading them with synthetic resins such as polyethylene, and then putting them into a high-temperature mold and compressing them into a certain shape. It is compacted with a mold and hardened quickly, so it is excellent in workability, and it is very strong against impact, especially with high bending strength, so if you properly align the direction of one trench during trench installation work, even the direction of the remaining trenches that are mechanically tightly joined with it It has the advantage of being able to fit together easily.

4 is a perspective view showing a state in which two conduit trenches 1 of FIGS. 2 and 3 are connected in a straight line. In Fig. 4, a fitting protrusion is formed on the bottom of the bottom of the trench (1) located in the upper left corner, and this fitting protrusion is inserted into the fitting groove (6a) formed in the connection part (6) of the trench (1) located in the lower right of the figure. By combining, the mechanical coupling of the two trenches 1 is completed.

5 and 6 are cross-sectional views of the coupling portion of the conduit trenches 1 cut along line XX in FIG. 4, and FIG. 5 is a fitting protrusion 6b formed at one end of one conduit trench 1 in another conduit. The relationship is shown by being fitted into the fitting groove 6a formed at the other end of the trench 1, and FIG. 6 shows a state in which the conduit trenches 1 of FIG. 5 are completely connected to each other.

7 is a plan view of the conduit trench 1 of FIGS. 2 and 3, showing a plan view as viewed from the direction ⓐ shown in FIG. 2.

Fig. 8 is a side view of the conduit trench 1 of Figs. 2 and 3, showing a side view as viewed from the direction ⓑ shown in Fig. 2.

9 is a cross-sectional view of the conduit trench 1 according to the present invention, of which Fig. <a> shows a cross-sectional view as viewed from the direction ⓒ shown in Fig. 2, and Fig. <b> is a cross-sectional view of the connection part 6 Shows the form.

Fig. 10 is another cross-sectional view of the conduit trench 1 according to the present invention, showing a state cut along the line Y-Y in Fig. 8. Referring to Fig. 10, the second bottom pipe 22 installed under the bottom surface 2 of the conduit trench 1 has its lower end open (22b) and the inner space 22a is empty, so this trench When (1) is placed on the mortar, a part of the mortar enters the inner space 22a of the bottom pipe 22. When an operator at the trench construction site hits the trench 1 with a wooden hammer or a rubber hammer in order to match the height between the trenches, the mortar enters the inner space 22a of the bottom pipe 22, so that the bottom pipe The height of the trench can be adjusted with a margin as much as (22).

11 to 15 sequentially show a process of installing a pipe trench 1 for a drainage channel according to the present invention on the floor in the inner space of the underground building structure 100.

Referring to FIG. 11, after pouring and completing the floor concrete 102 in the inner space of the underground building structure 100, a drain plate 103 is laid, and a mortar on the drain plate 103 at a position close to the wall 101 ( 104). The reason for striking the mortar 104 is to install a pipe trench 1 for a drainage channel.

Referring to FIG. 12, a pipe trench 1 according to the first embodiment of the present invention is installed on the mortar 104, and the pipe trench 1 is positioned by the mortar 104, and a plurality of trenches are formed. In case of continuous installation in the longitudinal direction, the position and height adjustment between the trenches can be adjusted by applying a blow using a rubber hammer or wooden hammer.

The pipe trench 1 made of BMC according to the present invention has a very thin thickness and a weight of about 2 kg per meter compared to the conventional trench made of concrete (see Fig. 1), so it is very light, so the transportation cost is very low. In addition, there is an advantage that workers can significantly reduce the amount of money. In addition, since the rigidity is very strong, it is not easily broken even when subjected to vibration or impact, so it is possible to significantly reduce the loss in the transportation process, thereby having a high economic advantage.

FIG. 13 is a perspective view illustrating a straight line installation process of the trenches 1 on the mortar 104 shown in FIG. 12.

Referring to FIG. 14, after installation of the trenches 1 is completed, a wire mesh 106 is installed and a finished concrete 107 is poured to complete the basement floor.

Subsequently, FIG. 15 shows a state in which the wall drain plate 108 is installed for draining the wall 101 after completion of the basement floor according to FIG. 14. Reference numeral 108a denotes the molding finish of the wall drain plate 108.

16 shows a state in which a pipe trench 1 for a drainage channel according to the present invention is installed on the floor adjacent to the wall of the underground building structure 100, and the finished concrete 107 is poured according to the height of the pipe trench 1 do. In FIG. 16, reference numeral 111 denotes a parking line marked for an underground parking lot of a building, reference numeral 110 denotes a parking barrier to keep the vehicle away from a wall by a certain distance, and reference numeral 110a denotes the parking barrier ( 110) on the floor.

Fig. 17 is a more enlarged view of the pipe trench 1 in the cross-sectional view of Fig. 15, and when the finished concrete 107 is dry and hardened and receives a force that contracts in the direction of ①, the pipe trench 1 of the present invention The bent part (4b) with a'b'-shaped cross-section in the wing part (4) of) exerts a force to hold the concrete in the direction of ②, thereby preventing the occurrence of cracks in the concrete 107 around the trench (1). Show what you can do.

Since the finished concrete 107 shrinks while drying and hardening, the finished concrete 107 receives a force to shrink in the direction of ①. At this time, in the pipe trench 1 of the present invention, the bent part 4b of the wing part 4 is bent in a'b' shape, so that the wing end 4c is embedded in the concrete 107, so that the concrete 107 As) contracts, it blocks the movement in the direction of ①. That is, in the pipe trench of the present invention, since the wing part 4 exerts a blocking force in the direction of ②, a crack occurs due to the contraction of concrete or the side of the concrete 107 and the trench 1 (3) It is possible to prevent gaps between them.

18 is a diagram showing a pipe trench 1a according to a second embodiment of the present invention, in which a horizontal wing extension portion in which at least one side of the wing portion 4 is previously treated with a sheath or joint 42 at predetermined intervals ( 40) shows the integrated structure.

Referring to Figure 18, the pipe trench (1a) according to the second embodiment is so that the horizontal wing extension 40 can be easily removed by applying a shearing force by a unit of a grill (grille, 41) by a plurality of joints. have. In Fig. 18, the joints 42 of the horizontal wing extension part 40 are formed in only one direction, and the joints 42 have a thin section as if a sheath was made, so that shear force is applied to the joint part. If applied, it can be easily removed in units of each grill 41. In this way, in the second embodiment of the present invention, the horizontal wing extensions 40 are formed on one or both sides of the wing part 4 and can be removed in units of the grill 41. This is because, in the case of protruding, it is necessary to cut the shape of the horizontal wing extension part 40 corresponding to the protruding shape of the pillars.

FIG. 19 shows an example of installing the pipe trench (1a) of FIG. 18 in the inner space of an underground building structure with columns protruding from the wall, and columns protruding from the wall surface 101 of the underground building structure 100 In accordance with the shape and position of (101a), by removing some of the grilles 41 of the horizontal wing extensions 40 of the pipe trench 1a, a pipe trench that can be directly attached to the wall according to the protruding structure of the wall ( An example of 1a) will be described.

In the conduit trench 1a of the second embodiment according to the present invention, the pillars 101a of the wall 101 can be inserted into the portion 42a from which the grilles are removed, so that the conduit trench ( It has the advantage of blocking the gap between 1a) and the wall. In the case of using only the existing concrete trench (see Fig. 1) or the pipe trench (see Fig. 1, Fig. 2) according to the first embodiment of the present invention, there is a gap between the wall 101 and the trench 1 It occurs, and the finished concrete 107 is poured into this void, and it is common that the finished concrete 107 of the floor layer is corroded by foreign substances flowing down from the wall. Therefore, as a second embodiment, the present invention allows the space separated from the wall to be blocked as a horizontal wing extension made of synthetic resin (BMC) to reduce the use of finished concrete, and to reduce the amount of water and foreign substances flowing from the wall. By this, the effect of preventing corrosion of the concrete floor can be achieved.

20 and 21 show a pipe trench 1b for a drainage passage of an underground building structure according to a third embodiment of the present invention, and the horizontal blade extension of the pipe trench 1a of FIG. 19 according to the second embodiment. It will be described that the two-dimensional grill 410 is formed on the part 40 so that the grilles 410 can be removed as necessary in the horizontal and vertical direction. As shown in Fig. 20, if the sheath (joint) 420a, 420b of the horizontal wing extension 40 is formed two-dimensionally, the shape can be removed as desired in the horizontal and vertical direction, and then the pillar on the wall surface is formed in the protruding shape. It has the advantage of being able to effectively fill the gap between the wall and the trench accordingly.

22 is a diagram showing a pipe trench 1c for a drainage passage of an underground building structure according to a fourth embodiment of the present invention, and a structure in which a grating seat portion 33 is provided so that a cover with a grating can be coupled. Shows.

Referring to FIG. 22, the first side surfaces 31 extend upward to a first height on both sides of the bottom surface 2, and the grating seating portions 33 extending horizontally from the first side surfaces 31 ) Is provided, and then a second side surface 32 extending upward to a second height is formed.

Fig. 23 is an exploded perspective view showing a relationship in which the grating cover 50 is coupled to the upper portion of the conduit trench 1c of Fig. 22; A plurality of holes 51a are formed in the grating cover 50, so that water can enter into the trench 1c below the grating cover 50 through the holes 51a, and the grating cover 50 has a first side ( It is placed on the grating seating portion 33 provided between the 31) and the second side surface 32. The grating cover 50 has a plurality of second reinforcing ribs 55 formed on the bottom surface of the grating cover 50 to sufficiently withstand an external load applied to the grating cover 50.

The grating cover 50 applied to the pipe trench 1c according to the present invention is also made of BMC material like the trench, and since the glass fiber is kneaded with synthetic resin and compression molded by a high temperature mold, stiffness, impact resistance, and bending strength Is very excellent.

Fig. 24 is a cross-sectional view of the grating type conduit trench 1c shown in Fig. 23 in the width direction.

25 is a cross-sectional view of the grating cover 50 shown in FIG. 23 in the width direction.

Fig. 26 is a plan view when the grating cover 50 shown in Fig. 23 is viewed from above.

1, 1a, 1b, 1c: conduit trench 2: bottom surface
2a: lower slope 3: side
4: wing 4a: lower slope
4b: bent part 4c: wing tip
5: first reinforcing rib 6: connecting part
6a: fitting groove 6b: fitting protrusion
21: first bottom pipe 22: second bottom pipe
22a: pipe inner space 22b: opening
31: first side 32: second side
33: grating seating jaw 40: horizontal wing extension
41: grille 42: sheath (joint)
42a: part with grill removed 50: grating cover
51: cover surface 51a: hole
52: front panel 53: rear panel
54: side 55: second reinforcing rib
61: bottom surface of the connection part 62: side surface of the connection part
100: underground building structure 101: wall
101a: pillar 102: floor concrete
103: drain plate 103a: drain space
104: mortar 105: drainage plate at the bottom of the wall
106: wire mesh 107: finished concrete
108: wall drainage plate 108a: molding finish
108b: cover plate 108c: drainage space
110: parking block 110a: bolt
111: parking line
120: concrete trench
210: mortar into the pipe 410: two-dimensional grill (grille)
420a: joint in the first direction 420b: joint in the second direction

Claims (10)

In the conduit trench (1) having an open top structure and having an overall'C' shape of a cross section cut in a direction orthogonal to the longitudinal direction,
The conduit trench (1),
Bottom surface 2;
Side surfaces (3) connected to the bottom surface on both sides of the bottom surface and bent upward to extend in a height direction; And
Including; a plurality of bottom pipes (21, 22) protruding on the bottom surface of the bottom surface (2),
A plurality of first reinforcing ribs 5 are formed to protrude in a strip shape in a direction orthogonal to the longitudinal direction of the pipe trench 1 on the outer surface of the bottom surface 2 and the side surfaces 3, , The first reinforcing ribs 5 are spaced apart from each other along the longitudinal direction of the pipe trench 1,
One end (first end) of both ends in the longitudinal direction of the conduit trench 1 is provided with a connecting portion 6 extending further along the longitudinal direction of the conduit trench, but fitted in the bottom portion of the connecting portion 6 The groove 6a is perforated, and a fitting protrusion 6b protrudes on the bottom surface of the bottom surface 2 at the other end (the second end), and the connection part 6 includes the bottom surface 2 and By forming outward from the position of the side surface (3), when the two conduit trenches are arranged to be butted in the longitudinal direction, the second end of the first conduit trench where the fitting protrusion 6b is formed is the second end of the second conduit trench. The coupling between the first and second pipe trenches is made in a way that is surrounded by the connection part 6 formed at the first end, and at this time, the fitting protrusion 6b is coupled in the fitting groove 6a by a force-fitting method. Is possible,
The bottom pipes 21 and 22 are tubular bodies with an empty inner space, and have an open lower end,
In the interior of the building structure, when the mortar is first hit where the pipe trench is to be installed and a pipe trench is installed thereon, it is easy to adjust the height of the pipe trench on the mortar because the mortar can enter the inner space of the bottom pipes (21, 22). and,
The conduit trench 1 is made of a bulk mold compound (BMC), and long fibers made by cutting fibers selected from the group including synthetic resin fibers and glass fibers into 3 to 5 cm lengths include polyethylene. A pipe trench for a drainage passage of an underground building structure, characterized in that the pipe trench for a drainage passage of an underground building structure, characterized in that the pipe trench for a drainage passage of an underground building structure, characterized in that the pipe trench for drainage passages of an underground building structure, characterized in that the pipe trench for drainage passages of an underground building structure, characterized in that by mixing and kneading it with a synthetic resin selected from the group described above, and compressing it into a high-temperature mold having a molding space corresponding to the shape of the pipe trench. delete The method of claim 1, wherein the conduit trench (1) further comprises a wing portion (4) formed to be further extended by bending in a planar direction from an upper end portion of the side surface (3),
The wing portion 4 is a top inclined portion 4a inclined outward at an angle of 30 to 60° from the upper end of the side surface 3, and of the conduit trench from the top of the top inclined portion 4a. It includes a bent portion (4b) further extending toward the outside in the width direction,
The bent portion (4b) has a cross-sectional structure bent in a'b' shape, the wing portion (4) is a pipe trench for a drainage passage of an underground building structure, characterized in that to form a shape wound about the side (3). delete 4. The pipe trench according to claim 3, wherein the wing portion (4) has a wing tip (4c) that is bent vertically downward from the bent portion (4b) and extends. In a conduit trench having an open top structure and a cross section cut in a direction orthogonal to the longitudinal direction is generally'C' shape,
The conduit trench (1a), the bottom surface (2), the bottom surface (2) on both sides of the bottom surface (2), respectively, and the side surfaces (3) which are bent upward and extend in the height direction, and the It includes a wing portion 4 formed to be further extended by being bent in a planar direction from the upper end of the side surface 3,
The conduit trench 1a is made of a bulk mold compound (BMC) material, and long fibers made by cutting fibers selected from the group including synthetic resin fibers and glass fibers into a length of 3 to 5 cm include polyethylene. After mixing and kneading with a synthetic resin selected from the group described above, it is molded and manufactured in an integral form by placing it in a high temperature mold having a molding space corresponding to the shape of the pipe trench and compressing it,
The conduit trench (1a) further includes a horizontal wing extension portion 40 formed integrally extending to at least one wing portion (4),
A plurality of first-direction joints 42 are formed in the horizontal wing extension part 40 in a direction orthogonal to the longitudinal direction of the pipe trench 1a, and the first-direction joints 42 are horizontal It has a thickness thinner than other parts of the wing extension part 40 and can be separated from the horizontal wing extension part 40 by applying a shearing force,
A pipe trench for a drainage passage of an underground building structure, characterized in that some or all of the total area of the horizontal wing extension part 40 can be removed by breaking the first joints 42. The method of claim 6, wherein a plurality of first reinforcing ribs (5) are strips on the outer surfaces of the bottom surface (2) and the side surfaces (3) in a direction orthogonal to the longitudinal direction of the pipe trench (1a). It is formed protruding in a shape, and the first reinforcing ribs 5 are spaced apart from each other along the longitudinal direction of the pipe trench 1a,
One end (first end) of both ends in the longitudinal direction of the conduit trench 1a is provided with a connecting portion 6 extending further along the longitudinal direction of the conduit trench 1a, the bottom of the connecting portion 6 A fitting groove (6a) is perforated in the portion, and a fitting protrusion (6b) is protruded on the bottom surface of the bottom surface (2) at the other end (the second end), and the connecting portion (6) is formed on the bottom surface ( 2) By forming outward from the position of the side (3), when the two pipe trenches are arranged to be butt in the longitudinal direction, the second end of the first pipe trench with the fitting protrusion 6b is the second pipe The coupling between the first and second pipe trenches is made in a manner that is surrounded by the connection part 6 formed at the first end of the trench, and the fitting protrusion 6b is forcibly fitted into the fitting groove 6a. Pipe trench for drainage of an underground building structure, characterized in that it can be combined in a manner. The method of claim 6, wherein the horizontal wing extension part (40) further comprises a plurality of second direction joints (420b) formed in a second direction orthogonal to the first direction joints (42),
The second direction joints 420b have a thickness thinner than that of portions other than the joints of the horizontal wing extension portion 40 and can be separated from the horizontal wing extension portion 40 when a shear force is applied,
Since the first direction joints 42 and the second direction joints 420b are provided in a lattice shape, the horizontal blade is formed by breaking of the first direction joints and/or the second direction joints. A pipe trench for a drainage channel of an underground building structure, characterized in that some or all of the total area of the extension part 40 can be removed. In a conduit trench having an open top structure and a cross section cut in a direction orthogonal to the longitudinal direction is generally'C' shape,
The conduit trench 1c,
Bottom surface 2;
Side surfaces (3) connected to the floor surface (2) on both sides of the floor surface (2) and bent upward to extend in a height direction; And
Including; a plurality of bottom pipes (21, 22) protruding on the bottom surface of the bottom surface (2),
A plurality of first reinforcing ribs 5 are formed to protrude in a strip shape in a direction orthogonal to the longitudinal direction of the pipe trench 1c on outer surfaces of the bottom surface 2 and the side surfaces, and the first The reinforcing ribs 5 are spaced apart from each other along the longitudinal direction of the pipe trench 1c,
One end (first end) of both ends in the longitudinal direction of the conduit trench 1c is provided with a connecting portion 6 extending further along the longitudinal direction of the conduit trench, but fitted in the bottom portion of the conduit 6 The groove 6a is perforated, and a fitting protrusion 6b protrudes on the bottom surface of the bottom surface 2 at the other end (the second end), and the connection part 6 includes the bottom surface 2 and By forming outward from the position of the side surface (3), when the two conduit trenches are arranged to be butted in the longitudinal direction, the second end of the first conduit trench where the fitting protrusion 6b is formed is the second end of the second conduit trench. The coupling between the first and second pipe trenches is made in a way that is surrounded by the connection part 6 formed at the first end, and at this time, the fitting protrusion 6b is coupled in the fitting groove 6a by a force-fitting method. Is possible,
The side surface of the conduit trench 1c has a first side surface 31 that is bent from the bottom surface 2 and extends upward, and an L-shaped chin is formed from the first side surface 31 to be separated from each other. It has a second side surface 32 extending upward, and a grating seating portion 33 located between the first side surface 31 and the second side surface 32,
The grating cover 50 may be mounted on the open upper portion of the conduit trench 1c to be coupled, but the grating cover 50 has a'C'-shaped cross section with an open lower side, and the lower end of the side surface is the grating cover 50 It may be placed and supported on the seating jaw portion 33,
The grating cover 50 has a plurality of second reinforcing ribs 55 protruding from the bottom surface, and a plurality of holes 51a are formed in the grating cover 50,
The bottom pipes 21 and 22 are tubular bodies with an empty inner space, and have an open lower end,
In the interior of the building structure, when the mortar is first hit where the pipe trench is to be installed and a pipe trench is installed thereon, it is easy to adjust the height of the pipe trench on the mortar because the mortar can enter the inner space of the bottom pipes (21, 22). and,
The conduit trench and grating cover are made of bulk mold compound (BMC) material, and long fibers made by cutting fibers selected from the group including synthetic resin fibers and glass fibers into 3 to 5 cm lengths include polyethylene. A pipe trench for a drainage passage of an underground building structure, characterized in that the pipe trench for a drainage passage of an underground building structure, characterized in that the pipe trench for a drainage passage of an underground building structure, characterized in that the pipe trench for drainage passages of an underground building structure, characterized in that the pipe trench for drainage passages of an underground building structure, characterized in that by mixing and kneading it with a synthetic resin selected from the group described above, and compressing it into a high-temperature mold having a molding space corresponding to the shape of the pipe trench. delete

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