KR200418101Y1 - The plastic drainpipe - Google Patents

Abstract

The present invention relates to a sewage pipe having a steel wire hole in the outer layer, in particular, it is produced in the form of extrusion to form the steel wire and the inner layer of the outer layer, the inner wall is made in a thick form to the thickness from the steel wire hole to the inner circumferential surface The present invention relates to a high-strand sheathed sewer pipe with no worries or holes.

Therefore, the present invention can form the inner layer and the outer layer at the same time because the extrusion line forming a steel wire hole in the longitudinal direction of the sewage pipe.

Of course, this advantage is to increase the durability of the sewer pipe, it is possible to form various types of steel wire hole, it is more robust because it can be spirally shaped.

In addition, the present invention has a strong durability against erosion and corrosion because the thickness of the inner wall is thicker than the conventional sewage pipe and simultaneously extruded.

Outer layer, steel wire hall, inner layer, inner wall, sewer pipe, etc.

Description

High-strength clad sewer pipe {The plastic drainpipe}

1 is a view showing a state of a conventional general sewer pipe,

Figure 2 is a cross-sectional view showing an embodiment of the sewage pipe of the present invention,

3 is a view showing a cross section of the sewage pipe of the present invention,

4 is a view showing a part of the sewage pipe is formed in a spiral liner hole of the sewage pipe of the present invention,

Figure 5 is an exemplary view showing to explain the sewage pipe is formed spirally of the steel wire hole of the sewage pipe of the present invention,

6 is a view showing various embodiments of the sewage pipe of the present invention.

<Brief description of the major symbols in the drawing shown>

10; Outer layer 20; Inner layer

30; Liner hole 40; inside wall

100; drainpipe

The present invention relates to a sewage pipe having a steel wire hole in the outer layer, in particular, it is produced in the form of extrusion to form the steel wire and the inner layer of the outer layer portion, and the inner wall to the thickness from the steel wire hole to the inner peripheral surface is made of a thick form The present invention relates to a high-strand-coated sewage pipe whose internal circumferential surface has been cut or removed.

In general, the sewage pipe is buried underground, so it is conventionally installed using a concrete pipe.

However, the concrete pipe is often damaged in high humidity environment or high pressure, and the transportation and installation is a problem due to the high price and heavy weight.

Therefore, in order to solve this problem, the rectangular tube (B), which is in the form of a small tube, is wound around the outside of the resin tube (A) to wrap the outside to absorb any external shocks that may be generated by the rectangular tube (B). A tube was developed (shown in FIG. 1).

However, this type of sewer pipe (C) does not completely solve the external shock, and if the inner circumferential surface is formed by the sewage flowing from the inside, the defect is likely to grow larger and become a hole.

This problem is caused only by the external impact, and the problem caused by not paying attention to the thickness of the inner tube flowing substantially.

In addition, there is a limit to the tightness of the fastening because it uses a method of winding the outer square tube (B) formed in the state of forming the inner tube (A).

The present invention that solves the above problems relates to a sewage pipe having a liner hole in the outer layer, in particular, the inner wall of the outer layer portion is formed in the form of extrusion to form the steel wire and the inner layer to become the thickness from the liner hole to the inner peripheral surface This thick form is intended to provide a high-strand-coated sewage pipe that eliminates the risk of dents or perforations.

Therefore, the present invention is a sewage pipe having a liner hole in the outer layer, the outer layer having the liner hole in the same direction as the longitudinal direction of the sewage pipe, and formed continuously with a predetermined interval; An inner layer having an inner circumferential surface of the inner tube in a slit shape inside the outer layer; It is an object of the present invention to provide an extruded high-strength coated sewer pipe that is combined to form a thick inner wall.

" 중 하나가 선택적으로 적용될 수 있고; 하수관의 외층에서 나선형으로 꼬아 형성되는 고강선 피복형 하수관을 제공하고자 한다.In addition, the steel wire hole of the outer layer of the present invention, the cross-sectional shape is circular, polygonal, oval or "

One may be selectively applied; to provide a high-strength coated sewer pipe spirally twisted in the outer layer of the sewer pipe.

In addition, the inner wall of the steel wire hole of the present invention is to provide a high-strand-coated sewage pipe that is formed 1.5-5 times thicker than the thickness of the steel wire hole.

The present invention is similar to the conventional one in that it relates to a sewage pipe having a steel wire in the outer layer.

However, in that it forms a steel wire hole, which is a high steel wire, can be twisted spirally to form the steel wire hole, and it can be manufactured more robustly, and the thickness of the inner layer is thicker to fundamentally prevent leakage from occurring inside. It will be described in detail with the drawings shown because there is a large feature.

The present invention, as shown in Figures 2 to 6, the outer layer in the same direction as the longitudinal direction of the sewage pipe 100, there is an outer layer 10 having a steel wire hole 30 is formed continuously with a predetermined interval and Inner layer 20 is formed in the outer circumference of the inner circumferential surface of the inner tube 10 is formed.

Therefore, to form a thick inner wall 40.

In the present invention in defining the inner wall 40, as shown in the enlarged view of FIG. 3, the thickness from the end of the steel wire hole 30 to the inner circumferential surface is referred to as the inner wall 40.

And the subject innovation is largely divided into the outer layer 10 and the inner layer 20.

Here, the inner layer 20 is a term that is distinguished from the inner wall 40.

That is, the inner layer 20 is the concept that can be used in the conventional sewage pipe to form an inner tube first, and when the sewage pipe of the form of winding a square tube to the outside, the inner tube portion is called the inner layer.

Therefore, the inner layer 20 is a thickness in which the distance from both ends of the steel wire hole 30 to the outer surface is also applied to the other side, that is, the distance shown in the enlarged view of FIG. 3 is called the inner layer 20.

As a result, the present invention does not distinguish a substantial layer to simultaneously produce the inner layer 20 and the outer layer 10 in the form of extrusion.

Only this distinction is made to explain the present invention more clearly.

Then, the configuration of the present invention will be described in detail.

That is, the outer layer 10 of the present invention has a steel wire hole 30 is formed at a predetermined distance from the cross section as shown.

By the way, it is important that the steel wire hole 30 is formed to be a horizontal direction, not a direction perpendicular to the longitudinal direction of the tube.

The advantage is to make the sewage pipe 100 of the present invention more robust and to be molded integrally in the form of extrusion.

Thus, the present invention is made of the steel wire hole 30 forms the outer layer 10 of the present invention sewage pipe 100 in the longitudinal direction and at the same time to form an inner layer 20 virtually partitioned therein.

The inner layer 20 is extruded in a slop-like form without bending because sewage flows to the inner circumferential surface thereof.

Then, if the sewage water flows down to the inner circumferential surface of the sewer pipe 100, it may be able to prevent the phenomenon of shaving the inner circumferential surface.

" 중 하나가 선택적으로 적용될 수 있다.And the steel wire hole 30 of the outer layer of the present invention, the shape of the cross section is circular, polygonal, oval or "

May optionally be applied.

That is, as in the various exemplary embodiments illustrated in FIG. 6, the cross section of the steel wire hole 30 may be circular, a polygon such as a triangle, a square, a pentagon, a hexagon, or an ellipse.

In addition, it may be in the form of a cross between the horizontal and vertical in the rectangular hole.

Meanwhile, the steel wire hole 30 of the outer layer 10 of the present invention may be twisted in a spiral form in the outer layer 10 of the sewage pipe 100.

That is, as shown in Figures 4 and 5, the steel wire hole 30 formed in the outer layer 10 of the sewage pipe 100 is formed long in the longitudinal direction of the sewage pipe 100, but uniformly twisted to form a spiral.

If the steel wire hole 30 of the sewage pipe 100 is twisted in this way, the supporting capacity of the load applied to the outer layer 10 becomes stronger, and the durability of the pipe 100 is greatly improved.

It is also possible to make the spiral steel wire hole 30, it is possible by the steel wire hole 30 to be formed in the longitudinal direction of the present invention, it is possible through the simultaneous extrusion production.

In addition, the inner wall 40, which is the inside of the steel wire hole 30 of the present invention, is preferably formed to be 1.5-5 times thicker than the thickness of the steel wire hole (30).

That is, as shown in the enlarged view of Figure 3, the inner wall 40 is significantly thicker than the thickness of the steel wire hole 30, the durability of the sewage pipe 100 is stronger.

It also has high durability against externally applied loads and high durability against erosion and corrosion of sewage.

The present invention is to form the thick inner layer 20 or the inner wall 40, the superiority of the present invention will be more.

As described above, the subject innovation is to form a steel wire hole in the longitudinal direction of the sewage pipe, it is possible to simultaneously form the inner layer and the outer layer.

Of course, this advantage is to increase the durability of the sewer pipe, it is possible to form various types of steel wire hole, it is more robust because it can be spirally shaped.

In addition, the present invention has a strong durability against erosion and corrosion because the thickness of the inner wall is thicker than the conventional sewage pipe and simultaneously extruded.

Claims (4)

In the sewage pipe which has a steel wire in an outer layer, An outer layer 10 having a steel wire hole 30 formed in the same direction as the longitudinal direction of the sewage pipe 100 and continuously formed at a predetermined interval; An inner layer 20 having an inner circumferential surface of the inner tube in a slit shape in the outer layer 10; Extruded high-strength wire type sewage pipe, characterized in that to combine to form a thick inner wall (40). The method of claim 1, The steel wire hole 30 of the outer layer, Its cross section may be circular, polygonal, oval or "

High-strand sheathed sewer pipes, characterized in that one of them can be selectively applied. The method according to claim 1 or 2, The steel wire hole 30 of the outer layer 10, High steel wire-coated sewage pipe, characterized in that formed in a spiral twist in the outer layer (10) of the sewage pipe (100). The method of claim 1, The inner wall 40 which is the inside of the steel wire hole 30, High-strength coated type sewage pipe, characterized in that to form a 1.5-5 times thicker than the thickness of the steel wire hole (30).

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