KR200399542Y1 - a plastic pipe - Google Patents

Abstract

The present invention relates to a high-strength plastic pipe formed by integrally extruding at least one semicircular reinforcement on the inner surface of a pipe formed of a hard or soft plastic material. More specifically, a plurality of reinforcing bars are integrally extruded in a semicircular shape around the inner surface of the pipe, and a high-strength plastic pipe is formed so that an auxiliary passage is formed between the reinforcing bars and the pipe to help fluid flow. To present.

Description

High strength plastic pipe {a plastic pipe}

The present invention relates to a pipe, and more particularly, to a high-strength plastic pipe formed by integrally extruding at least one semicircular reinforcement on an inner surface of a pipe formed of a hard or soft plastic material.

As is well known, a pipe formed of a hard or soft plastic material is used to transfer a fluid flow, and is generally manufactured in a hollow circular shape, and is widely used in agriculture and industries such as water connection pipes and water hoses.

However, conventional conventional plastic pipes have exposed a lot of weaknesses in terms of strength, and the prior art to solve this problem is the Korean Patent Office Publication No. 20-1998-0020731 (name: reinforcement pipe) (hereinafter referred to as prior art) Is called).

The prior art is a structure characterized in that the reinforcing member is formed on the inner surface of the pipe manufactured in the form of a hollow circle formed at the ends of one side and the other side inserted.

Through the above structure, the prior art can increase the resistance strength to withstand external shocks during piping work, and also has the effect of preventing the leakage of fluid by preventing cracks.

However, the prior art is that the reinforcing material is not integrally extruded during the molding process of the pipe, but after the reinforcing material is manufactured separately, the reinforcing material is inserted into the inner surface of the pipe to cause a lot of trouble in the manufacturing process.

In particular, the prior art says that the reinforcement inserted into the inner surface when the impact is applied to the pipe withstands it, but as mentioned, the reinforcement of the pipe is effectively reinforced when it is simply configured in the form of a double pipe, that is, the inner wall of the pipe. The problem is that you can't.

Therefore, the present invention for solving the above problems is to ensure that the semi-circular reinforcement is integrally extruded on the inner surface of the pipe formed of a hard or soft plastic material, so that the strength of the pipe can be reinforced by the stress applied from the outside. In providing a plastic pipe.

Another object of the present invention is to provide a high-strength plastic pipe that can prevent the flow of the fluid is blocked by the pipe is not completely folded by the external stress through the reinforcement.

Another object of the present invention is to provide a high-strength plastic pipe that can minimize the shape deformation of the reinforcement in the cooling process by molding the thickness of the reinforcement to a smaller thickness than the pipe.

Another object of the present invention is to provide a high-strength plastic pipe to assist the flow of fluid by forming an auxiliary passage in the reinforcement bar.

The present invention for achieving the above object is a pipe made of a rigid or soft synthetic resin material in a circular shape and the main passage through which a fluid is formed therein, a plurality of reinforcing bar around the inner surface of the pipe is semi-circular The present invention provides a high-strength plastic pipe, which is integrally extruded and configured to form an auxiliary passage between the reinforcement bar and the pipe to assist the flow of fluid.

The thickness of the reinforcing bar is preferably molded smaller than the thickness of the pipe.

Hereinafter, a detailed description of a preferred embodiment of the present invention will be described with reference to the accompanying drawings.

1 and 2 show the structure of a high-strength plastic pipe to be implemented in the beam design.

As shown, the high-strength plastic pipe 100 is composed of a pipe 10 and the reinforcement 14 to form an appearance.

The pipe 10 is formed in a circular shape and has a main passage 12 through which a flow of fluid is formed. The pipe 10 is extruded by using a material of hard or soft synthetic resin selectively.

In this case, the pipe formed of a hard synthetic resin is usually used mainly for industrial pipes such as water pipes, and the pipe molded of a soft synthetic resin is mainly used as a water hose mainly used in homes.

The reinforcement 14 is to reinforce the strength of the pipe 10 formed of a hard or soft synthetic resin material as mentioned above, as shown in FIG. 2 along the inner circumference of the pipe 10. It is integrally extruded in a semicircular shape. At this time, it is preferable to form an auxiliary passage 16 of a predetermined size between the reinforcing bar 14 and the pipe 10, the auxiliary passage 16 so that the fluid flows smoothly with the main passage 12. To help fluid flow. In addition, the number of the reinforcement 14 is most preferably used three as shown, but the number can be increased or decreased as needed.

That is, the reinforcing bar 14, which is extruded in a semicircle as described above, is applied when a worker's foot or other external stress is applied to any part of the pipe 10 during use as shown in FIG. By supporting the pipe 10 so that the part is not completely folded, it prevents the flow of the fluid from being blocked and also prevents cracks or ruptures around the folds that may occur due to the pipe 10 being completely folded. 10) can be reinforced. In addition, when the external stress is removed, the pipe 10 may be quickly restored through the reinforcing bar 14.

On the other hand, the thickness of the reinforcement 14 is preferably molded smaller than the thickness of the pipe 10, which is extruded after the pipe 10, the reinforcement 14 formed therein in the cooling process This is to prevent shape deformation that may occur due to lack of cooling.

That is, the pipe 10 is molded through the extrusion method, the pipe 10 thus formed is subjected to a cooling process for a certain time. At this time, the reinforcement 14 may not be cooled at the same speed as the cooling of the pipe 10 because the reinforcement 14 is formed inside the pipe 10. Therefore, the reinforcement 14 is less cooled even though the pipe 10 is cooled. As a result, the shape may be deformed during use.

In order to solve the above problem, by forming the thickness of the reinforcement 14 to a thickness smaller than the pipe 10 can be cooled in a faster time than the pipe 10, so that the reinforcement 14 is inside the pipe 10 Even if formed in the cooling 10 at the same speed as the cooling time of the pipe 10 it is possible to prevent the shape deformation of the reinforcement 14 in the pipe 10 forming process.

As discussed above, the present invention achieves many effects as follows.

First, the semicircular reinforcement formed on the inner surface of the pipe formed of hard or soft plastic material has an effect of preventing the pipe from being damaged by stress applied from the outside.

Secondly, the pipe is prevented from being completely folded by external stress through the reinforcement bar, thereby preventing the flow of fluid.

Third, by shaping the thickness of the reinforcement bar to a thickness smaller than the pipe has the effect of minimizing the shape deformation of the reinforcement bar during the cooling process.

1 is a three-dimensional view showing a high-strength plastic pipe according to a preferred embodiment of the present invention.

2 is a cross-sectional view of the high strength plastic pipe shown in FIG.

3 is a view showing a state of use of the high-strength plastic pipe according to the present invention.

<Description of the symbols for the main parts of the drawings>

10: pipe 12: main passage

14: Reinforcement 16: Auxiliary Path

100: high strength plastic pipe

Claims (2)

In the pipe 10 is formed in a circular shape using a hard or soft synthetic resin material and the main passage 12 is formed therein for passing a fluid, Around the inner surface of the pipe 10 a plurality of reinforcement 14 is integrally extruded in a semi-circular shape, High-strength plastic pipe, characterized in that configured between the reinforcing bar (14) and the pipe (10) to form an auxiliary passage (16) to help the flow of fluid. The method of claim 1, High strength plastic pipe, characterized in that the thickness of the reinforcement (14) is molded smaller than the thickness of the pipe (10).