KR20050105907A - Water and sewage pipe for reinforcement structure in civil engineering and road construction - Google Patents

Abstract

The present invention relates to water and sewage pipes for reinforcement structures in civil engineering and road construction to be used as underground burial, and is a product used as waste water pipes, water supply and drain pipes.

In general, the upper and sewage pipes used for the water supply and drainage pipes are used in areas where soft ground or high loads are applied, and the pipes are formed by bending both side wall surfaces 32 of the hollow sphere 31 to be integrated into the fusion zone 33. In addition, the water and sewage pipes provided by integrating both side wall surfaces 32 of the lower hollow spheres 31 and 31 ′ with the fusion splicing 33 are used in a two-layer structure for superimposition.

Therefore, the above products have a problem that the hollow spheres 31, 31 'are easily damaged in the soft sewer or recessed areas, which are used in the underground, so that the firmness and external pressure reinforcement are higher. The provision of the product is required, and the inner space of the hollow spheres 31, 31 'of each layer formed in a two-layer structure while dividing the predetermined thickness according to the above-described certain regulations into two layers. The joint surface 38, which is integrally fused to the lower side, is bent in the direction of the inner and outer sides 35 and 36 from the respective hollow spheres 31 and 31 'so as to be fused to the inner and outer sides 35 and 36, respectively. 33) to form a joining surface 38 'on both sides while forming a bending groove 37 to be integrated into; Filling the bent groove (26) and the joint surface (38 ') with a reinforcing resin (41), it is an invention to provide external pressure reinforcement and firmness at the hollow sphere (31, 31') where the vulnerability is exposed ,

In addition, as an invention according to this embodiment, the reinforcing hollow sphere 42 and the support wall 49 is integrally provided on the inner and outer side surfaces 35 and 36, and when embedded in the ground for a long time, partial Due to the load or point load, it is possible to solve the weakness that occurs in the hollow section in the hollow hole 31 of the pipe 50, which is conventionally used. In order to provide a stable external pressure reinforcement product, and the invention for this embodiment.

Description

Water and sewage pipes for reinforcement structures in civil engineering and road construction

The present invention relates to water and sewage pipes for reinforcement structures in civil engineering and road construction to be used as underground burial, and is a product used as waste water pipes, water supply and drain pipes.

In general, when the upper and sewer pipes for reinforcing structures are buried underground and used for a long time for supply and drainage pipes, the reinforcing spiral pipes used for the reinforcing structures have a continuous structure of hollow spheres and I beams in the longitudinal direction of the product. In the construction area where the external pressure load or the soft ground or sometimes the construction work is not performed correctly, the problem that the hollow hole is formed in the spiral pipe composed of the spiral winding due to the unbalanced load or the ground subsidence is damaged. There was a problem that the range of use of the reinforcing spiral tube is not wide.

However, in order to reinforce the hollow sphere part, which is a fragile structure of the reinforcing spiral pipes used as the upper and the sewer pipes described above, the reinforcing structures of the thickness divided by the reinforcement spiral pipe into two to three parts are overlapped and overlapped with each other. While providing a reinforcing structure for the joining surface is to be configured, the reinforcement pipe configured to reinforce the fragility due to breakage in the hollow sphere portion, the upper and lower hollow spheres.

Thus, the reinforcement of the upper and lower hollow spheres reinforced by the two-three-layer structure as described above integrally bonds the upper and lower side surfaces forming the upper and lower hollow spheres described above. This is to provide almost perfect durability by supplementing the durability against earth pressure or lubrication pressure in case of long-term use in process or underground laying.

In addition, in the pipe described above, a product is provided in which a hollow sphere, which is integrated with a spiral winding on both side walls, is filled with a hard resin zone or a rigid foam or a reinforced resin tube.

However, the reinforcement spiral pipes used for the upper and the sewage pipes provided above have good external pressure in the small size of the drainage pipe when the structure of the spiral pipe is examined in the longitudinal direction, but in the medium and large size, it is robust compared to the size of the standard. And external earth pressure reinforcement is relatively weak, it is a reality that a product of higher strength structure is required to expand the demand of reinforced water and sewage pipes and provide robustness.

The present invention is an invention provided to reinforce the problems presented above, in the conventional helix tube in the I-beam structure portion integrated into the hollow sphere and both side wall, for averaging the portion provided with high strength and rigidity, the hollow sphere and both side wall or junction Reinforcing spirals provided with the same thickness of spiral tubes of the same standard by overlapping each other on the upper and lower sides by dividing the spiral tube integrated into two or three layers with the same thickness as the existing thickness of the same spiral tube standard. In the pipe, the invention is to compensate for the weakness of the hollow sphere portion to be reinforced by filling with a reinforcing resin, but to form a bent groove with a bend and fusion to bend at the site to be joined to reinforce the integration of the overlapping joint surface. .

In the description of the present invention, the inner and outer sides of the upper and lower hollow spheres, which overlap the upper and lower hollow spheres that separate the thickness into two parts in the structure of the structural reinforcement spiral pipes for the upper and lower pipes, are bent in the inner and outer directions. Forming a bent groove in the inner space of the hollow sphere and forming the bent grooves integrally with the inner and outer sides of the hollow sphere; Filling the reinforcing resin zone and the adhesive band in the bent groove and both side wall surface, it is an invention characterized by the reinforcement to the damage of the hollow sphere and the joint surface area of the conventional weakness.

Accordingly, the present invention will be described in detail with reference to the accompanying drawings,

Figure 1 is a partial perspective view of the present invention, Figure 2 is a partial cross-sectional view of a conventionally provided product, Figure 3 by bending the upper and lower surfaces to form an adhesive surface integrated in the upper and lower hollow sphere in Figure 2 Fig. 4 is a partial cross-sectional view showing a structure in which the bending grooves are fixed to the inner and outer sides by fusion splicing, and FIG. 4 is a partial cross-sectional view showing the structure of filling the bending grooves formed in the upper and lower surfaces in FIG. 4 is a partial cross-sectional view of a main portion showing a two-layer structure by integrally integrating the upper and lower surfaces of the upper and lower surfaces shown in FIG. 4 with a fusion reinforcing wall, and FIG. 6 is a partial state diagram of the main portion showing the manufacturing process of the present invention. FIG. 9 is a partial cross-sectional view showing a structure in which reinforcing hollow spheres are inserted between upper and lower surfaces in FIG. 4, FIG. 10 is a partial cross-sectional view showing a structure of an embodiment of the present invention, and FIG. 11 is another embodiment of the present invention. Part of the example structure It is a cross section.

Therefore, when the present invention is described in detail, the conventionally provided spiral tube, as shown in Figure 2, to form a hollow sphere (31) (31 ') for dividing the thickness (T) of the same standard, To both sides of the hollow walls 31 and 31 'of the hollow spheres 31 and 31', which are integrally bonded to each other in the inward and outward direction, to the bonding table 39 while spirally winding at predetermined intervals. The pipe 50 provided as a spiral tube having a two-layer structure while being molded while being integrally formed is formed at the upper and lower portions formed by cutting the hollow sphere 31 in two portions and is formed integrally with the hollow sphere 31 ( 31 ') joint surface 38 provides excellent reinforcement for external soil reinforcement when used underground in construction, but for long-term use by earth pressure and rotational pressure when buried in road, etc. Zero-conducting, flexible tube If the reality is a lot to expose the lack of castles.

Therefore, the present invention is to provide a reinforcing structure for the bonding surface 38 and the internal, external pressure, and firmness exposed in the above description, the thickness formed in a certain standard as shown in Figures 3 to 5 The present invention in the hollow sphere 31 (31 ') of the two-layer structure integrated into the bonding surface 38 in the inner and outer structure while being reinforced and integrated between the two side wall surface 32, while the two side wall 32 The main portion of the inner and outer sides of the hollow spheres 31, 31 'is bent in the direction of the respective hollow spheres 31, 31' in the junction surface 38, the inner and outer sides 35 While forming the bending groove 34 and the fusion table 33 to be fused to the 36 and integrally formed at the joint surface 38 'formed on both sides of the joint surface 38, while forming the bending groove 37 It is the invention provided by constructing the structure of the bending stand 34 and the fusion | melting stand 33 which are formed symmetrically in 2-layer structure mutually.

Here, in the spiral pipe provided by the pipe 50, which is the product of the present invention described above, the bending groove 37 composed of the bending table 34 and the fusion zone 33 and the joining surface 38 'formed on both sides thereof. ) By filling the reinforcement resin 41 into the inner space of the hollow sphere 31 and 31 ′ of the two-layer structure up to the joint surface 38 ′ formed on both sides with the bending groove 37. The invention is configured by filling the reinforcement resin 41.

In addition, in the present invention, for the durability and external pressure reinforcement in the provided pipe 50, the hollow sphere described above by wrapping the reinforcing wall 43 integrally on the inner and outer surfaces 35, 36 described above ( 31) and reinforcing the rigidity between the adhesive strip 39, while strengthening the durability against the impact applied to the outer portion.

Here, the manufacturing process of the present invention is a spiral winding circuit of the tube 55 is extruded from the die of the extruder not shown primarily in the rotating roller 54 of the forming apparatus of the spiral tube not shown in the drawing as shown in FIG. While maintaining a predetermined distance, the lower hollow sphere 31 'and the bending table 34 are formed, while being fixed to the inner surface 36 by the fusion splicer 33, and rotationally molded, and the second tube 55' extruded. The upper hollow sphere 31 and the bending table 34 are integrally fused to the outer side surface 35 integrally with the joint surface 38 ′ formed on both sides of the lower hollow sphere 31 ′. While forming integrally fixed to the bonding surface 38 'on both sides, forming a bending groove 37 while forming a bending groove 37, and then, in a separate extrusion hole not shown, the both side wall surfaces 32 in the ↓ direction. The invention is configured to be manufactured by inserting the adhesive strip 39 in the gap between).

In addition, in order to provide the product of the present invention for a larger standard, as shown in Figure 7 to Figure 9 to the inner and outer sides of the hollow sphere 31, 31 'support wall 49 in the middle portion When forming and providing the reinforcing hollow tool 42 is configured, according to the invention, the hollow sphere of the multi-layer structure is reinforced and overlapped accordingly is an invention that provides a more reinforced water, sewage pipe than when used by underground buried in the medium size pipe. .

Here, the locking jaw 52 is formed on both side walls 32 by narrowing the width of the hollow spheres 31 and 31 ′ formed at the inner side rather than the width of both side walls 32 of the provided reinforcing hollow tools 42. While, as described above, while filling the adhesive strip 39 while being held at a predetermined interval as the spiral winding circuit, the locking ribs 51 are configured in the locking jaw 52 so that the long-term use in underground laying It is an invention that a reinforcing product is provided.

In addition, the description of the embodiment of the present invention, as shown in Figure 10, the inner hollow sphere 31 'in the upper and lower hollow spheres 31 (31') is the bonding surface 38 as described above The intermediate portion of the bent to the inner surface (36) consisting of a bent table 34 and the fusion zone 33, and bent in the middle portion at the outer surface (35) of the outer hollow sphere 31, the bending table (34) And the fusion zone 33 is integrated into the joint surface 38 of the outer hollow sphere 31 as the fusion zone 33, but the filling table 34 while filling the reinforcing resin 41 ', the above description As described above, the invention is provided by constructing a joint surface 38 integrally in a two-layer structure.

In addition, the description of another embodiment in the present invention, as shown in Figure 11 to Figure 12, the upper and lower hollow spheres 31, 31 'described above in the bending table 34 and the fusion zone 33 In the pipe 50 of the present invention, which is configured to be a concave bent groove 37, as a product described to provide external pressure reinforcement and rigidity for providing for large-scale upper and lower sewer pipes, the upper and lower hollow holes 31 Inserting the intermediate hollow hole 53 on the joint surface 38 'for fusion bonding 31' integrally, while bending the upper and lower sides of the intermediate hollow hole 53 to form the auxiliary fusion splicing rod 45; By constructing the locking jaw 52 to reduce the width of the intermediate hollow hole 53 located in the middle portion of the both side wall surface 32, the adhesive table 39 between the two side wall surface 32 as described above It provides a product that is fixed and fixed by the locking ribs 51 while filling, thereby increasing the external pressure reinforcement and providing firmness reinforcement. The.

The present invention is formed by integrally filling the bending groove with the fusion resin zone fused by integrally overlapping each hollow sphere divided into two to three equal thickness (T) of the same standard to the upper and lower sides Also, as a reinforcing structure for this, the locking ribs are formed and fixed by the filling of the adhesive strip while forming the locking jaws on both side wall surfaces of each hollow sphere formed in the 2-3 layer structure. Alternatively, when the load is buried in the buried area, it is a useful invention that is used stably for a long time in the construction site because it reinforces the vulnerability of pipes used for water and sewage pipes, which are highlighted as vulnerabilities.

1 is a partial perspective view of the present invention

2 is a partial cross-sectional view of a conventionally provided product.

3A and 3B are cross-sectional views taken along line A-A of FIG. 1 showing a structure in which the bending grooves are fixed to the inner and outer sides by fixing the upper and lower surfaces to form an adhesive surface integrated at the upper and lower hollow spheres.

Figure 4 is a partial cross-sectional view of the main portion showing a structure for filling the reinforcing resin band in the bending groove formed in the upper, lower side in Figure 3

FIG. 5 is a partial cross-sectional view of a main part showing a two-layer structure by integrally integrating the upper and lower surfaces shown in FIG.

Figure 6 is a partial state diagram of the main portion showing the manufacturing process of the present invention

7 to 9 are partial cross-sectional views illustrating a structure in which reinforcing hollow holes are inserted between upper and lower surfaces in FIG. 4.

Fig. 10 is a partial sectional view showing a structure of an embodiment of the present invention.

11 is a partial cross-sectional view showing the structure of another embodiment in the present invention.

12 is a partial perspective view of a product according to an embodiment of the present invention.

<Description of Major Symbols in Drawing>

31,31 '. Hollow ball 32. Both sides 33. Fusion table 34. Bending table

35,36. Inner and outer side 37. Bending groove 38,38 '. Joint surface

39. Bonding zone 41. Reinforcing resin zone 42. Reinforcing hollow tools

43. Reinforcement wall 44. Upper and lower hollow holes 45. Auxiliary fusion zone

49. Supporting wall 50. Pipe 51. Jamming rib 53. Middle hollow tool

Claims (5)

In the high-strength reinforcement pipe 40 for water and sewage pipes which consists of a two-layer structure in which both side wall surfaces 32 of the hollow spheres 31 and 31 'overlapped in two layers are integrally formed by the joint surface 38 and the bonding table 39. , The hollow spheres 31 and 31 'of the upper and lower portions are bent to the inner and outer sides 35 and 36 by bending the intermediate side in the direction of the respective hollow spheres 31 and 31' at the joint surface 38 portion. The bending table 34 is formed while forming the bending groove 37 while being integral with the bonding surface 38 'formed on both sides of the bonding surface 38 while being formed of the bending table 34 and the fusion table 33. ) And fusion zone (33), the construction of the water and sewage pipes for reinforcement structures in civil and road construction consisting of a two-layer structure symmetrically integrated with each other. The method of claim 1, Water and sewage pipes for reinforcing structures in civil engineering and road construction, which are formed by filling the reinforcement resins 41 into the joint surfaces 38 'and bending grooves 37 formed at both sides of the upper and lower hollow balls 31 and 31'. . The method according to claim 1 or 2, Reinforcement structural upper and lower pipes for civil engineering and road construction, which is formed by wrapping each reinforcement wall 43 integrally with the inner and outer surfaces 35 and 36 of the upper and lower hollow balls 31 and 31 ′. The method according to claim 1 or 2, Integrally reinforcing hollow balls (42) separated by support walls (49) integrally with the inner and outer surfaces (35, 36) of the upper and lower hollow balls (24, 24 '); The upper and lower hollow spheres 24 and 24 ′, while narrowing the width of the engaging jaw 52 to form a locking jaw (52) integrally fixed in the civil engineering and road construction in the construction and road construction ,drainpipe. The method according to claim 1 or 2, Bending the upper and lower sides between the joining surfaces 38 'of the upper and lower hollow balls 31 and 31' to integrally insert the intermediate hollow balls 53 constituting the auxiliary welding table 45; To narrow the width of the intermediate hollow hole 53 to form a locking step 52 between the two side wall surface (32); Water and sewage pipes for reinforcing structures in civil engineering and road construction that is formed by filling the adhesive bar (39) between the locking step (52) to form a locking rib (51).