KR200302892Y1 - Spiral pipe for structural reinforcement - Google Patents

Abstract

The present invention relates to a spiral pipe for structural reinforcement and is a product used as a waste water pipe, a drain pipe, and the like in civil engineering.

Generally, various devices are provided to reinforce durability during long-term use of underground laying, but the hollow ball part of reinforced spiral tool constructed by spiral winding of synthetic resin spiral pipe that is used is subjected to concentrated load according to the area under the ground. The product for the application of the corrugated support 34 to the spiral groove between the spirally wound reinforcing support part 31 formed by the reinforcing support part 31 and formed by the reinforcing support part 31 may be damaged in the spiral direction that is spirally wound. The construction of cotton has actually provided an effect on providing high strength spiral tubes.

Here, the height of the reinforcement support part 31 is formed in a spiral winding to raise the height to a certain level. At this time, the forming process of the reinforcement support part 31 is a very difficult method. The hollow pipe 35 formed on the upper and lower sides of the spiral pipe made of spiral wound and integrated with the joints 38 on both side walls of the intermediate portion of the reinforcement support part 31 is spiral wound to the base 33. Both side wall 37 is integrated into the other side wall surface 37 formed on the other side of the spiral winding, while the middle portion, while forming the reinforcing holes 36 integrally on both sides of the joint table 38 ( 38 ') is welded alternately left and right in the direction of spiral winding, and when the high-strength spiral tube of the present invention is buried under the ground for long-term use, the pressure resistance is increased when it is concentrated under soft ground or depression. Designed to maintain and use stably, the design for the embodiment of the support belt is formed in the spiral groove groove 39 formed a certain interval of the spiral winding circuit reinforcement support portion 31 is formed in the hollow sphere 35 up and down It is an embodiment of the present invention, which is formed by integrally fusion welding the support 44 on both sides of the reinforcing support part 31 and the 44 and the corrugated support 34.

Description

Spiral tubes for structural reinforcement {omitted}

The present invention is to provide a product composed of a structural reinforcement spiral pipe for the drainage pipe to increase the damage strength of the drainage pipe, stress on the external pressure, while reinforcing the durability of the rotation pressure.

In general, to reinforce the stress of drainage pipes against earth pressure and lubrication pressure, both side wall surfaces of reinforcing hollow tools which are spiral wound are directly integrated, and the spiral pipes of various structures are provided with products that are reinforced with both wall surfaces. However, there were vulnerabilities that the spirally wound reinforcement tools were damaged in the circumferential cross section depending on the earth pressure.

In addition, in order to solve this problem, there was provided a product in which the corrugated support and the support belt are integrally formed in the spiral groove formed by forming a predetermined interval between the reinforcing support parts and the spiral winding circuit. Secondly, since the corrugated support and the support belt are molded, the molding process of the reinforcement support shrinks as it cools down in the extrusion process of synthetic resin, which is the main raw material of the spiral tube, so it is possible to manufacture the economical reinforcement support. Durable reinforcement structure for the reality is needed.

In addition, the spiral pipes for drainage pipes actually used in the field are thickened according to the usage specifications. In particular, in the case of a large size, the spiral pipes provide a certain thickness. It is a reality that the limitation of external pressure high steel occurs when buried and used stably.

In order to solve this problem, the hollow spheres are formed on the upper and lower sides of the reinforcement support, in which the hollow spheres are omitted, respectively, while forming the hollow spheres by joining the intermediate parts together to form a support body integrally, both wall surfaces of the hollow spheres formed on the upper and lower sides. It has been provided a product that is integrally fused by spiral bonding, but it is required to provide a perfect reinforcing spiral tube that is more practical and effective, durable and economically reconsidered. As shown in Fig. 2, the hollow sphere 21 is formed. In the conventional spiral tube, in which both side walls of the reinforcing hollow portion 22 are integrally fused with the joining table 23 and spirally wound, it is necessary to bury it underground and use it for a long time. A weakness in which the inner and outer surfaces of 22 are broken in the circumferential direction is exposed. In addition, in the conventionally provided design, the structure is simple as shown in FIG. In order to provide a high-strength product and to reinforce the stress against external pressure, the reinforcing support part 22 formed by supporting the hollow ball 24 and the hollow ball 24 'with the support 25 is a fusion point 26. The spiral pipes which are spirally wound to form a spiral reinforcement 27 are formed by joining the reinforcing holes 27 therebetween, so that the stress and the rigidity against external pressure are good, but the joints joined in a regular shape are separated from the external impact by being weak. There is a problem such as being.

The present invention is intended to provide a good product durability and robustness by dispersing the damaged stress to the fragility of the hollow sphere of the spiral pipe, as well as the impact or pressure applied to any part in the ground as well as earth pressure and rotation pressure.

In addition, the present invention is to provide a structural reinforcing spiral tube that is more robust than the straight support forming the hollow spheres and to increase the stress reinforcement against external pressure.

1 is a partial perspective view of a spiral tube according to the present invention

Figure 2 is a partial cross-sectional view showing that both sides of the hollow wall in the conventional spiral tube integrally

3 is a partial cross-sectional view showing another example of a conventional spiral tube.

Figure 4 (a) is a partially enlarged cross-sectional view of the spiral tube according to the present invention

Figure 4 (b) is a partially cutaway perspective view of the spiral tube according to the present invention

4 (c) is a partially enlarged perspective view showing a structure in which the corrugated supports are symmetrically formed on both sides of each other in FIG.

FIG. 5 is a partially enlarged cross-sectional view showing a structure in which a reinforcing support unit in FIG. 4 is integrated with a fusion agent; FIG.

FIG. 6 is a partially enlarged cross-sectional view showing a spiral support for a large-scale spiral pipe supporting the hollow support in FIG.

Figure 7 is a partially enlarged cross-sectional view showing another embodiment of the present invention

Figure 8 (a) (b) is a partially enlarged cross-sectional view showing a structure in which the spiral tube of the present invention is formed in a two-layer structure

9 is a partial cross-sectional view showing a manufacturing process for forming a spiral tube according to the present invention

[Explanation of symbols on the main parts of the drawings]

20. Spiral pipe 31. Reinforcement support 35, 35 '. Hollow ball 36. Reinforcement

37, 46, melting point 41. Corrugated support

42. V-shaped support 49. Groove

Referring to the present invention in detail based on the drawings,

In forming the hollow spheres 35 and 35 'on the upper and lower sides of the reinforcing support part 31, but in manufacturing the reinforcing support part 31 connected to the support part 41 which is curved in a concave shape at both sides. In the drawing, the tube 57 extruded from the die of the extruder (not shown) is cooled through the cooling pipe 56 for molding to be molded into a spiral winding, and both side walls are welded to the upper and lower sides by the fusion point 37. This is a spiral tube formed by forming a reinforcing tool 36 by a zigzag curved support 41.

Structural reinforcement of the corrugated support 41 provided herein is a main part of the present invention, as shown in FIGS. 4 (a) and 4 (b), according to the direction in which the reinforcement support 31 is formed as a spiral winding. Intermediate integral with the hollow spheres 35 and 35 'formed at the upper and lower sides of the reinforcement support part 31 in the structure of the corrugated support part 41 which is curved and protrudes zigzag in the right direction and the recess 49 is formed. It is an invention provided by molding both side walls of a part by bending.

As an example of the corrugated support 41, as shown in Fig. 4 (C), the reinforcement support 31 is a corrugated support 41 (41 ') in which grooves 49 are formed symmetrically with respect to both side wall surfaces of the intermediate part. It is designed to provide a structure that is formed by bending to form the fusion point 37 integrally with each other.

At this time, in order to further reinforce the integrated welding force of the fusion point 37 fused to the upper and lower side, as shown in Figure 5 used to fill the reinforcing holes 36, such as adhesive agent 40, such as adhesive resin By reinforcing the adhesive force, the concave portion 49 formed in the corrugated support 41 and both side wall surfaces connected by the hollow hole 36 are concave to each other to form a fusion integrally. Therefore, the structural reinforcing spiral tube provided in the present invention solves the weakness in the conventional reinforcement support and external pressure reinforcement and manufacturing process of the hollow sphere at the same time.

In the case of underground pipes used for drainage pipes, the condition of using large-diameter drainage pipes with capacity to solve drainage such as heavy rain and rainy seasons is established. Since a spiral tube having a large drainage section of size (φ600 m / m or larger) is used, the spiral tube is formed to maintain an appropriate thickness in proportion to the size thereof, and is designed to provide a reinforcing structure thereto. As shown in the upper and lower sides described above, the hollow spheres 35 and 35 'are connected to each other by the corrugated support 41, so that both side wall surfaces are bonded to each other in the reinforcement support 31 of the present invention. Hollow hole 35 "is formed in the middle part of the molding machine in the spiral winding fusion operation in the molding machine, both side wall surfaces of the upper and lower hollow balls 35, 35 'at the same time in the fusion process with each other Both sides of the wall Fusing the same time will be to form a wave support (41).

In addition, in the embodiment of the present invention, as shown in Figure 7, the hollow spheres 35, 35 'is formed on the upper and lower sides, and the reinforcement support portion 31 in which the corrugated support 41' is formed on the middle side is formed at a predetermined interval. The spiral groove is connected while forming a groove, and the V-shaped support 42 is integrally fixed at the upper side of the reinforcing support part 31 provided at a predetermined interval, and intermittently the drilling tool 44 to the spiral tube 20. It is designed to use as a culvert drainage by drilling.

And as a description of the embodiment of the present invention, as the spiral pipe of the present invention described above, the use standard of the spiral pipe used for drainage pipes underground is the size of the standard size of the spiral pipe according to the drainage capacity ( 100m / m or more), but the thickness of the spiral pipe used must be thickened at this time, so the limit of the thickness is exposed to the spiral pipe as described above. In order to provide a reinforcing spiral tube for this, a separate reinforcing support portion 31 'is provided at the lower side of the upper reinforcing support portion 31 as shown in FIG. Composed integrally to provide a spiral tube reinforced with a two-layer structure cross section.

The present invention omits the hollow spheres of reinforcing hollow parts, which are highlighted as a weak point when underground subsidence or unbalanced loads are applied to the conventional spiral pipe, and hollow holes above and below the reinforcing support part for reinforcing the joints, respectively. It is formed, but the side wall surface is bonded to each other by connecting the middle part with the corrugated support to form a reinforcement while integrally to both side wall surface of the hollow sphere on the upper and lower side of the spiral winding circuit, the reinforcement support and both side wall surface Not only is the durability and robustness of the site strengthened, but also economical and productive products are provided in large specifications.

Claims (6)

The reinforcement support part 31 is formed by supporting the hollow hole 35 and the hollow hole 35 'by the corrugated support 41 having a recess 49 formed in a zigzag curve. Spiral pipe for structural reinforcement, characterized in that the side wall surface of the c) is joined by the fusion point 37 to form a reinforcement 36 between the corrugated support 41. The method of claim 1, Spiral tube for structural reinforcement, characterized in that the reinforcing hole 36 is filled with a fusion agent (40). The method of claim 1, Spiral tube for structural reinforcement, characterized in that the corrugated support (41 ') is symmetrically bonded to the corrugated support (41). The method according to claim 1 or 2, Structural reinforcement spiral tube, characterized in that to form a two-layer structure by joining a separate reinforcement support portion (31 ') to the lower side of the reinforcement support portion (31). The reinforcement support part 31 is formed by supporting the hollow hole 35 and the hollow hole 35 'with a corrugated support 41 having a recess 49 formed in a zigzag curve. Spiral winding of the spiral reinforcement structure, characterized in that integrally bonding the V-shaped support 42 to the outside of the reinforcement support portion 31 at regular intervals. The method of claim 5, Spiral tube for structural reinforcement, characterized in that for drilling the puncture tool 44 in the spiral tube 20 between the V-shaped support 42 and the V-shaped support (42).