KR200257359Y1 - Large synthetic resin pipe - Google Patents

Abstract

This study relates to the structure and shape of large diameter synthetic resin tubes.In the case of conventional large diameter synthetic resin tubes, due to the characteristics of synthetic resin materials, rigid synthetic resin tubes have strong strength but are broken, and soft synthetic resin tubes are not broken but are not strong. Many defects occurred and problems occurred after use, resulting in economic loss and environmental problems.

The purpose of this study is to form a composite pipe that makes up the strengths of rigid and flexible plastic pipes, and complements the disadvantages of forming synthetic pipes with large diameters. The adhesive synthetic resin tube is integrally fused and molded on the outer circumferential surface thereof, and the synthetic resin tube of the flexible material is fusion-molded integrally on the outer circumferential surface to form a rigid, adhesive, and flexible three-ply composite tube, which is then continued in a spiral circle shape. While manufacturing, the upper and lower parts are welded integrally with adhesive synthetic resin to form a fusion part, but the inner surface of the tube formed by fusion of two fan types symmetrically is smooth and the outer surface is welded higher than the 3-ply composite pipe. To form a large composite synthetic resin pipe.

The composite synthetic resin pipe with a large caliber in this paper is buried in the ground and used as a sewer pipe in the sewage terminal treatment plant where the pipe is solid, strong in strength, unbreakable and excellent in durability and earth pressure and lubricity are greatly affected. It is a very useful design that can be used economically as it can replace sewage pipes, industrial waste and sewage pipes, and strong steel and concrete fume pipes.

Description

Large synthetic composite pipe {.}

The present invention relates to the structure and shape of a large diameter synthetic resin tube. A three-ply composite tube having a reinforcement structure, that is, a rigid adhesive soft synthetic resin tube is formed integrally using an extruder and a mold, and is continuously manufactured using a spiral molding machine. It is to form a composite resin tube with a large diameter.

Due to the increase in population and industrial development, the amount of drainage discharged from homes and industries has increased greatly. Concrete pipes, which were mainly used for drainage pipes due to the increased use of detergents and chemicals, are easily corroded and require corrosion-resistant synthetic resin pipes.

However, when the synthetic resin pipe was buried in the ground, the weak strength was crushed, and the strong strength had the disadvantage of being broken.

The synthetic resin pipes that have been buried in the ground are used for straight pipes with smooth inner and outer surfaces, corrugated pipes with smooth and external wave shapes, double walled pipes with smooth inner and outer surfaces, and thickened inside. Inside is a foam tube, which is a foam layer, and an engineering plastic inserted into a double wall tube, which is built inside. All of these pipes are mostly made of PVC and PE, which are suitable for small diameters.In addition, it is difficult to manufacture engineering plastic pipes as well as it is difficult to manufacture engineering plastic pipes. There is a lot of flaw in the separated state. In addition, the price of raw materials for engineering plastics is expensive, making it unfeasible. In addition, rigid synthetic resin pipes have strong strength but are broken, and soft synthetic pipes are not broken but have weak strength.

The object of the present invention is to provide a composite plastic pipe with a strong, unbreakable, and excellent durability at a low cost.

The present invention combines rigid synthetic resin tube and flexible synthetic resin tube to obtain the strength of rigid synthetic resin tube and the unbreakable strength of flexible synthetic resin tube at the same time. While forming the grate type reinforcement structure in the internal vaporization, the adhesive synthetic resin tube is integrally fused and molded on the outer circumferential surface, and the flexible synthetic resin tube is fused and integrally formed thereon, and is formed between the rigid and flexible synthetic resin tube. The two layers of the adhesive synthetic resin tube are integrated to form a rigid, adhesive, and flexible three-ply composite tube, which is continuously manufactured in a spiral circle in a spiral molding machine, and the bottoms of the mutually welded surfaces are joined by two adhesive synthetic resin extruders. Welded together to form a welded area, but welded together firmly to protect the pipe Phase, the lower two sector-shaped inner surface is formed to be symmetrical to each other, and smooth, the outer exterior surface is sealed above the three layers while bokhapgwan aperture to form a larger composite synthetic resin tube to form an outer shape is gentle wave mold.

In general, the PE double-walled pipe, which has been generally used, is manufactured by continuously forming small square PE pipes in a spiral circle, and fusion welding surfaces by fusion of PE to form a fusion zone. Noodles are formed by fusion to be smooth like a pipe or rather lower than a pipe, and have an inner diameter of 150 to 1,500. However, since the raw material is a flexible resin of PE, it is crushed when buried in the ground. It should be calculated and used properly. In particular, the internal expansion of the pipe is wide, so the endurance is weak and the restoring power is weak, so durability is a problem, and the fusion is smooth like the pipe or, rather, it is fused to enter the pipe lower than the pipe.

However, these tubes are used because they are easy to manufacture and require less raw materials, resulting in lower manufacturing costs.

The inner and outer surfaces of the rigid layer and the foam layer inside the foam layer have the disadvantage that the raw material is a rigid resin or foamed when buried in the ground. Also, inserting the engineering plastic into the double-walled PE pipe without welding it is not feasible because the double-walled PE pipe and the engineering plastic are separated, which greatly reduces the durability, is difficult to manufacture, and the raw material engineering plastic is expensive. In addition, the inner surface is smooth and the outer surface is corrugated, the corrugated pipe takes a very small amount of raw materials and is easy to manufacture, but the product with PE as a raw material is weak and poor, and the raw material of PVC is broken.

In order to improve the above problems, in the present invention, a rigid synthetic resin tube formed with a grate-type reinforcement structure in the internal vaporization is formed by an extruder, and the other synthetic extruder is integrally fused to its outer circumferential surface by another extruder, and another extruder The flexible synthetic resin tube is integrally fused and molded on the outer circumferential surface to form a three-ply composite tube with a grate-shaped reinforcement structure. At this time, each of the extruder should be used, but the mold can be made in one mold, can be molded by two or three mold each.

The three types of rigid, adhesive, and flexible synthetic resin tubes formed in this way have different physical properties and properties, but the adhesive synthetic resin fuses the two tubes integrally between the rigid synthetic resin tube and the flexible synthetic resin tube. If only the rigid and flexible synthetic resin tube is molded, it cannot be formed integrally, and it will be a poor tube if it is used without it.

Rigid synthetic resins are strong but broken, such as P.P P.V.C P.S A.B.S, and soft synthetic resins are weak but not broken.

Adhesive synthetic resins are produced by LG, Honam Petrochemical, SK, etc., and can bond different types of resins, and also iron or glass wood.

As described above, the three-ply composite pipe with the grate-shaped reinforcement structure is continuously manufactured by using a spiral molding machine to form a fusion by integrally fusion of two adhesive synthetic resin extruders on the lower part of the surface to be joined to each other. The inner surface of the pipe to be fused and formed is smooth and the outer surface is welded higher than the three-ply composite pipe so that the three-ply composite pipe can be fused very tightly and protect the pipe to form a large synthetic resin pipe with a large wavy shape with a smooth appearance. Was

The present invention combines the strengths of rigid synthetic resins with the strengths of soft synthetic resins as a synthetic resin tube, and the disadvantage is that it is a new composite tube made up of strong and unbreakable composite tubes. It is possible to fuse the two tubes integrally with an adhesive synthetic resin. In addition, the grate-type reinforcing structure is integrally connected to the hollow inside the rigid resin pipe, which greatly increases endurance and resilience so as not to be broken more strongly. Constructing three-ply composite pipes in a circle is easy for the production of circular pipes during manufacturing, and is most effective for fusion bonding rigid and flexible synthetic resin pipes integrally with adhesive synthetic resin pipes. This is because symmetrical fan shape, that is, foil foil is effective in fusion such as shape. The large composite composite pipe formed in this way is a very useful design that can be widely used in the market of high strength concrete pipe.

Figure 1 is a perspective view of a portion of a conventional double PE pipe wall inside

Figure 2 is a perspective view of a part of a large diameter composite synthetic resin pipe of the present invention

Figure 3 is a cross-sectional view of the honeycomb reinforcement structure and the shape of another embodiment of the present invention

Figure 4 is a cross-sectional view of a three-ply composite pipe shape of another embodiment of the present invention

5 is a cross-sectional view of a three-ply composite pipe structure in which the reinforcing structure of another embodiment of the present invention is not formed.

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

100: rigid synthetic resin tube

101: grate type reinforcement structure

105: inside the pipe

110: adhesive synthetic resin tube

120: flexible synthetic resin tube

200: 3-ply composite pipe

200-1: 3-ply composite pipe without reinforcing structure

300: fan-shaped weld

301: upper fan shape

302: lower fan shape

307: Adhesive synthetic resin

305: Inside surface of large composite resin pipe

306: External surface of large composite resin pipe

400: Wave shape of large composite resin tube

500: Large synthetic composite pipe

The present invention for achieving the object as described above in detail by the accompanying drawings as follows.

1 is a perspective view in which a portion of the inside of the PE 11 is cut in order to show a configuration of the PE double wall 50. While continuously manufacturing the small square PE pipe 10 in a spiral circle shape, fusion welded parts 20 were formed in I type by fusion welding the same surfaces with the same PE, and the inner and outer surfaces of the pipe were smoothed.

2 is a perspective view of a portion cut to show the structure and shape of the composite synthetic resin pipe 500 having a large diameter of the present invention. Form a grate-type reinforcement structure 101 in which the horizontal and vertical reinforcement crosses each other in the internal expansion of the rigid synthetic resin pipe 100, but connect the walls with the rigid synthetic resin pipe 100 integrally and support the pipes by making the intersection part integral. It is designed to increase strength, prevent breakage, and greatly increase endurance and resilience.

As such, the adhesive synthetic resin tube 110 is integrally fused with the rigid synthetic resin tube 100 on the outer circumferential surface of the rigid synthetic resin tube 100 having the grate type reinforcement structure 101 formed therein, and the flexible synthetic resin tube is formed on the outer circumferential surface again ( 120 is integrally fusion molded to form a three-ply composite pipe 200 having a grate reinforcement structure 101 formed thereon. In order to fuse the rigid synthetic resin tube 100 and the flexible synthetic resin tube 120 in which the grate-type reinforcement structure 101 is integrally formed, an adhesive synthetic resin tube 110 was formed between the two tubes to integrally fusion the two tubes.

In this way, the strong and unbreakable strengths of the rigid and ductile synthetic resin pipes are taken up, broken and weak.

As described above, the three-ply composite pipe 200 having the grate-shaped reinforcement structure 101 is continuously manufactured in a spiral circle, and the lower portions of the surfaces facing each other are integrally fused with the adhesive synthetic resin 307, but the two fan shapes are symmetrical to each other. The center of the welded part is made thinner and thicker toward each other, i.e., toward the inner surface 305 and the outer surface 306, so that the fan shape is symmetrical to each other, and the inner surface 305 of the tubular body to be formed is smooth and the outer surface. Reference numeral 306 has a fan-shaped welded portion 300 formed higher than the three-ply composite pipe 200 in which the grate reinforcement structure 101 is formed.

Fan-shaped fusion unit 300 of the present invention is necessarily upper. The fan-shaped welds 300 are embedded in the ground in the shape of wedges, so that the dynamic loads are firmly used and the welding force is greatly increased. The composite plastic pipe 500 having a large diameter was formed with the main element of the configuration that the three-ply composite pipe 200 having the grate-type reinforcement structure 101 formed therebetween was formed.

The composite synthetic resin pipe 500 formed in this way is excellent in chemical resistance, strong in strength, not broken, and endurance and resilience are greatly increased, which is a very useful design of almost permanent life. The three-ply composite pipe 200 is configured in a circular shape to further increase the bonding strength when the rigid synthetic resin pipe 100 and the flexible synthetic resin pipe 120 are fused with the adhesive synthetic resin 307. In addition, by increasing the fusion of the outer surface of the pipe to form a large shape of the composite resin pipe with a large wavy shape 400 to make the pipe stronger and to protect from external impact.

Figure 3 is another embodiment of the present invention relates to a reinforcement structure formed in the inner cavity 105 of the three-ply composite pipe formed of a rigid, adhesive flexible synthetic resin tube, the reinforcing structure is a four-angle (a) hexagonal (b) A circular (c) shape is a cross-sectional view of a structure and a shape in which many are orderly or freely formed.

Such a reinforcement structure may be referred to as a honeycomb reinforcement structure.

4 is a cross-sectional view of a quadrangular (octave) or octagonal (b) shape of a three-ply composite pipe 200 in which a grate-shaped reinforcement structure 101 is formed as another embodiment of the present invention. The square (a) octagonal (b) three-ply composite pipe 200 in the internal expansion 105 can form a variety of reinforcement structures listed in the present invention.

5 is another embodiment of the present invention, without forming the grate-type reinforcement structure 101 to form a rigid synthetic resin tube 100 and integrally fusion-molded adhesive synthetic resin tube 110 on its outer peripheral surface and again the outer peripheral surface It is a cross-sectional view of a three-ply composite pipe (200-1) is formed by fusion molding the flexible synthetic resin pipe (120) integrally to the reinforcing structure is not formed.

The three-ply composite pipe 200-1 without such a reinforcing structure may be used as a gas pipe or a water pipe by forming a straight pipe having a small diameter.

In addition to the three-ply composite pipe 200 is added to the pipe of different physical properties to form a four-ply composite pipe by fusion molding integrally belong to the design of the present invention.

In the description of the report, fusion means melting and gluing, fusion between fusion and fusion, and fusion means fusion or fusion.

The present invention is a composite resin pipe with a large diameter buried in the ground, which improved the shortcomings of the synthetic resin pipe. The rigid plastic pipe is strong but is broken, and the soft synthetic pipe is not broken. There is an inconvenience to use.

However, in the present invention, the rigid synthetic resin tube and the flexible synthetic resin tube are integrally fused and molded with adhesive synthetic resin to form a three-ply composite tube of rigid, adhesive, and flexible synthetic resin, and to improve the three-ply composite tube further, the internal expansion of the rigid synthetic resin tube It is characterized by forming a grate-type reinforcement structure, to form a three-ply composite tube formed with a grate-type reinforcement structure. The three-ply composite tube formed with such a reinforcement structure is strong, unbreakable, and has excellent endurance and resilience. It is also possible to form various other reinforcement structures instead of grate type reinforcement structures.

While continuously manufacturing three-ply composite pipe with a grate-type reinforcement structure in a spiral circle, the upper and lower sides of the mutually welded joints are integrally fused and formed by adhesive resin to form a fusion portion, and the two fan shapes are fused and formed into a symmetrical shape. The inner surface of the tube was smooth and the outer surface was fused and molded higher than the three-ply composite tube to protect the tube and greatly increase the welding force so that there was no breakage.

The present invention is a composite resin tube with a large diameter, which is formed in such a way that the strength is strong, does not break, and is the best synthetic resin tube with excellent durability, which can be widely used in sewage wastewater and sewage treatment plant teahouse pipes, which had previously been weakened and broken. It is a useful pipe, and most of the large pipes are concrete pipes or steel pipes, not used as a problem of weak strength and breakage, which are disadvantages of synthetic resin pipes. However, concrete pipes and steel pipes are easily corroded due to their poor chemical resistance, and have many defects in durability.

The large diameter of the present invention can be used as a large composite resin tube, and the expected effect is a great design. In particular, the reinforcement structure formed in the three-layer composite pipe internal increase is a reinforcement structure that increases the load strength and strengthens the endurance and resilience. Another thing is that it does not form a grate-type reinforcement structure formed in the internal expansion of a three-ply composite pipe, and has a useful effect to develop a three-ply composite gas pipe or a three-ply composite water pipe by forming it as a straight pipe.

Claims (5)

A reinforcing structure is formed in the inner hollow 105 of the rigid synthetic resin pipe 100 and the adhesive synthetic resin pipe 110 is integrally fused to the outer circumferential surface of the rigid synthetic resin pipe 100 in which the reinforcing structure is formed, and then the flexible synthetic resin is further formed on the outer circumferential surface thereof. The pipe 120 is integrally fused to form a three-ply composite pipe 200 having a reinforcing structure, and the three-ply composite pipe having the reinforcing structure is bonded to the side and the side to each other while continuing to bend in a spiral cylindrical shape to bond the side and the side to be joined to each other. The diameter of the three-ply composite pipe 200 is formed by forming a fan-shaped fusion portion 300 of the symmetrical fan shape (301,302) by fusion with the resin resin 307 and a reinforcing structure is formed between the fan-shaped fusion portion (300) In the structure and shape of the large composite resin tube 500 A composite composite pipe with a large diameter formed by forming a three-ply composite pipe 200 in which one horizontal reinforcing bar and one vertical reinforcing bar intersect each other between the fan-shaped welding parts 300 is formed. (500) delete delete delete delete