KR200249762Y1 - A Plastic Pipe - Google Patents

Abstract

The present invention relates to a underground resin composite resin pipe which is formed to maintain a precise circular cross section to drain sewage and sewage smoothly. In the cylindrical shape formed as a synthetic resin having a cylindrical diameter having a constant diameter size and having a smooth inner and outer surfaces, the pipe wall 100 is a rigid synthetic resin circular unit 10 which is spiral wound around a predetermined diameter size. It is a synthetic resin pipe for underground embedding, which is formed integrally and continuously as a molten resin 20 filled to form a smooth surface between the synthetic resin circular units, so that the pipe wall 100 maintains a precise circular cross section.

Description

Submerged synthetic resin pipes {A Plastic Pipe}

This paper relates to a drainage pipe that is buried in the ground and drains sewage and sewage, and more particularly, to a underground resin composite pipe that smoothly drains sewage and sewage by forming a pipe wall to be maintained in a precise circular section.

Drainage pipes that are buried in the ground to drain sewage or sewage have been mainly used concrete pipes or cast iron pipes made to withstand large loads mechanically, and these concrete pipes or cast iron pipes are made of a material with a large unit specific gravity. In addition, it is known to have defects that are not easy to handle and cannot be efficiently buried in the ground.

In order to overcome these defects, synthetic resin tubes for underground laying of various shapes and structures have been developed using synthetic resins, the most common of which is formed of polyethylene resin, which is cylindrical in a certain diameter and has a smooth inner and outer surface. Underground underground synthetic resin tubes formed to form a pipe wall are known.

This underground laying synthetic resin pipe is made of polyethylene resin with a small unit specific gravity to form a pipe wall, and as the weight of the whole is lighter, it is easy to handle, and thus, the underground work is carried out more efficiently. Therefore, unnecessary work time and labor are saved. It is true that it has the advantage of greatly reducing.

However, since the conventional underground-filled synthetic resin pipe is made of a continuous extrusion method in order to form smoothly the inner and outer surfaces of the pipe wall in a circular cross section, the pipe wall shrinks and deforms after molding, so that drainage capacity is reduced. In addition, the installation cost of the molding apparatus to be equipped at the production site is excessively costly to lose economic efficiency.

That is, in view of the fact that the synthetic resin shrinkage deformation during the curing after molding, even if the pipe wall is molded into a precise circular cross-section by the continuous extrusion molding from the molding apparatus is severely twisted or bent deformation in the subsequent curing process Therefore, there is a problem that the drainage capacity is greatly lowered by acting as a factor to disturb the water flow of sewage and sewage flowing along the pipe wall.

In addition, the molding apparatus for forming the underground buried synthetic resin pipe was inevitably large in size to have a structure suitable for continuous extrusion of the pipe wall, and in order to form a tube diameter of the required size, it is necessary to have a molding apparatus for each standard. In addition, there was a problem that the cost of manufacturing the synthetic resin pipe for underground burial increased significantly and the production cost was lost.

This proposal is a melted resin filled between synthetic resin circular units to form a pipe wall of precise circular cross section. First, it improves the drainage capacity and enables the original function to be faithfully fulfilled as a piping material. The purpose is to provide underground resin synthetic resin pipes that can improve the economics by enabling the production of

1 is a partially cutaway perspective view showing a synthetic resin pipe for underground laying

Figure 2 is a partially cutaway front view showing a synthetic resin pipe for underground laying

Figure 3 shows a synthetic resin tube of one embodiment of the present invention

Figure 4 shows a synthetic resin pipe of another embodiment of the present invention

Figure 5a is a view showing the synthetic resin pipe of another embodiment of the present invention Figure 5b is a view showing the working state of the synthetic resin pipe according to another embodiment of the present invention

<Explanation of symbols for main parts of drawing>

10: synthetic resin circular unit A: polyethylene resin

20: molten resin 21: landfill

100: pipe wall 110,120: inner and outer walls

130: reinforcing steel 140: heat shrink socket portion

This invention is also molded in a synthetic resin and has a cylindrical shape having a constant diameter size, and has the same technical concept as the conventional one in that the inner and outer surfaces have a smooth pipe wall 100.

However, the underground buried synthetic resin pipe of this paper, as shown in Figures 1 and 2, the pipe wall 100 is between the synthetic resin circular unit between the rigid synthetic resin circular unit (10) of the spiral wound in a predetermined diameter size The molten resin 20 is formed so as to be integrally connected as a molten resin 20 to form a smooth surface, so that the tube wall 100 to maintain a precise circular cross section is a basic feature in the technical configuration.

The underground buried synthetic resin pipe of the present invention constituted as described above forms a pipe wall 100 in which the hard synthetic resin circular units 10 spirally wound together through the molten resin 20 are integrally connected to each other. 100) Because it maintains precise circular section continuously without twisting or bending deformation, it has an effect of smoothly draining sewage and sewage. In addition, since the synthetic resin circular unit 10 is wound and bonded with a molten resin 20 to form a cylindrical tube wall 100, since it can be freely manufactured in various tube sizes without being concerned with the specifications of the molding window, It will have the effect of reducing the equipment cost and production cost required to install the molding apparatus.

Hereinafter, the technical details of the present invention through the specific embodiments shown in the accompanying drawings in detail as follows.

The pipe wall 100 spirally wound the synthetic resin circular unit 10 discharged from the extrusion molding machine (not shown), and filled with the molten resin 20 between the synthetic resin circular unit 10 and cooled and cured. To form as a sieve.

The synthetic resin circular unit 10 is a round rod shape that is filled with the inside is used by long extrusion molding. Here, the synthetic resin prototype unit 10 is preferably made of polyethylene resin (A) having excellent chemical properties in the synthetic resin series.

The molten resin 20 is filled in a gel state between the spiral wound synthetic resin circular unit 10, and then cooled and cured, so that the synthetic resin circular unit 10 is firmly connected to each other.

FIG. 3 illustrates an embodiment of the present invention, which is illustrated by embedding a plurality of embedded hardware 21 inside individual molten resins 20 connecting the synthetic resin circular units 10 to each other. The buried hardware 21 is to reinforce the molten resin 20 to connect the synthetic resin circular unit 10 between each other, it can be expected to increase the structural strength of the entire pipe wall (100).

Figure 4 shows another embodiment of the present invention, the pipe wall 100 is to be composed of the inner, outer wall (110, 120) connected to each other by spiral winding the synthetic resin circular unit 10, respectively, the inner, outer wall ( The reinforcing steel 130 is integrally embedded between the 110 and 120 so that the pipe wall 100 increases the corresponding structural strength against external loads.

In addition, Figure 5a shows another embodiment of the present invention, the heat-shrinkable socket portion 140, which is stretched to a diameter (Φ) and a cross-sectional thickness (t) of a predetermined size by rolling the one end of the tube wall (100) In order to facilitate connection work when connecting piping, the watertightness of the connection part is improved.

5B, the end of the other underground buried synthetic resin pipe is inserted into the heat shrink socket 140 of the underground buried synthetic resin pipe on one side when interconnecting the underground buried synthetic resin pipe as shown in FIG. When the heat shrink socket portion 140 is heated as 1), the heat shrink socket portion 140, which is elongated as a diameter Φ and a cross section thickness t of a predetermined size, is contracted evenly in the axial direction, and the heat shrink socket portion 140 Since it is connected to the other end of other underground buried synthetic resin pipes within), it can be easily connected by connecting underground buried synthetic resin pipes to each other, and the underground pipe synthetic resin pipes are interleaved with each other. You can expect the benefits of improving the watertightness by connecting without a connection.

As discussed above, the present invention is a melted resin filled between synthetic resin circular units to form a pipe wall of a precise circular cross-section, thereby improving the drainage capacity, and having a useful effect of being economically manufactured.

Claims (4)

In the case of having a tubular wall 100 which is formed as a synthetic resin and has a cylindrical diameter having a constant diameter size, the inner and outer surfaces of which are smooth, The pipe wall 100 is formed to be integrally connected as a molten resin 20 which is filled so as to form a smooth surface between the synthetic resin circular units 10 of the rigid synthetic resin spiral wound around a predetermined diameter size, the Pipe wall 100 is a synthetic resin pipe for underground burial, characterized in that to maintain a precise circular cross section. The synthetic resin pipe for underground laying according to claim 1, wherein the plurality of buried hardwares (21) are embedded in the respective molten resins (20) connecting the synthetic resin circular units (10) to each other. According to claim 1, wherein the pipe wall 100 is made of spirally wound synthetic resin circular unit (10), respectively, to be composed of the inner, outer wall (110, 120) connected between, between the inner, outer wall (110, 120) Underground resin composite resin pipe, characterized in that the reinforcement 130 is embedded integrally. The method according to claim 1, wherein one end of the tube wall 100 is rolled to have a heat shrink socket portion 140 that is expanded to a diameter Φ and a cross section thickness t of a predetermined size. Synthetic resin pipe for underground laying.