KR20070031572A - synthetic pipe - Google Patents

Abstract

The present invention relates to a synthetic resin porous tube with both ends sealed, in particular by tightly sealing both ends of the synthetic resin porous tube cut to a certain length, to increase the overall rigidity of the synthetic resin porous tube to prevent the tube from crushing, as well as the synthetic resin The space formed in the synoptic wall is to more effectively insulate, soundproof, and prevent rain or foreign matter from being introduced into the space during movement or work.

Perforated synthetic pipe, space, molten resin, molten resin injector

Description

Synthetic pipe with sealed both ends

1 is a perspective view showing a state in which a space is formed in a straight direction in a porous plastic pipe according to the present invention;

2 is a cross-sectional view showing a state in which both ends of the synthetic resin porous tube of FIG.

3 is a perspective view showing a state in which a space is spirally formed in a synthetic resin porous tube according to the present invention;

4 is a cross-sectional view showing a state in which both ends of the synthetic resin short hole pipe of FIG.

Figure 5 is a schematic view showing a state in which the synthetic resin porous tube is sealed in accordance with the present invention.

(Explanation of symbols for the main parts of the drawing)

100,100a; Synthetic resin porous tube 110; Wall

120; Space 200; Molten resin

300; Melt resin injection apparatus 310; Pedestal

320; Nozzle hole 400; Melt extruder

The present invention relates to a synthetic resin porous tube closed at both ends, and in particular, by closely sealing both ends of the synthetic resin porous tube cut to a certain length, thereby increasing the overall rigidity of the synthetic resin porous tube to prevent the tube from being crushed, as well as the synthetic resin. It relates to a synthetic resin porous pipe sealed at both ends so that the space formed in the synoptic wall can be more effectively insulated, soundproofed, and prevent rain or foreign matter from being introduced into the space during movement or work.

Generally, the pipes used as sewer pipes, drain pipes, and water pipes are made of metal pipes. Such a metal tube has a disadvantage in that it is inconvenient to transport and handle and difficult to install due to its weight, and when it is used for a long time, the tube itself is corroded and thus the tube must be replaced at any time.

Therefore, conventionally, in view of the above disadvantages, a synthetic resin tube of a synthetic resin material satisfying the wear resistance has been devised.

This conventional synthetic resin pipe has the advantage that it can be used to meet the desired purpose, that is, the synthetic resin pipe to a certain degree of durability and wear resistance, but such a synthetic resin pipe is not provided because there is no separate device to reinforce strength When buried, the service life of the synthetic resin pipe is not only shortened due to failure to distribute the load applied downward or easily damaged by external impacts. Is increased, the weight is weighted, and various inconveniences occurred during movement and installation.

Therefore, in view of the above problems of the synthetic resin tube, a synthetic resin porous tube having a plurality of spaces formed at regular intervals inside the wall when the synthetic resin tube is extruded has been devised.

The above-mentioned synthetic resin porous tube is formed with a space inside the wall, and this space is used in a linear direction with respect to the longitudinal direction of the synthetic resin tube or spirally twisted with respect to the longitudinal direction of the synthetic resin tube.

The synthetic resin porous tube can be used to solve the problem of the conventional synthetic resin tube, but both ends of the synthetic resin porous tube having a space have the disadvantage that both ends are most vulnerable to the rigidity, and thus the tube crushing phenomenon. This occurred.

In addition, since both ends of the synthetic resin porous pipe are open, there are disadvantages in that rainwater or foreign matter is introduced into the space during movement or work, and problems such as thermal insulation and sound insulation are reduced.

An object of the present invention is to devise in view of the above-mentioned conventional problems, by tightly sealing both ends of the synthetic resin porous pipe cut to a certain length, to increase the overall rigidity of the synthetic resin porous pipe to prevent the tube from crushing Of course, the space formed on the synthetic resin porous pipe wall more effectively insulates and performs sound insulation, and provides a synthetic resin porous pipe sealed at both ends to prevent rain or foreign matter from being introduced into the space during movement or work. It is.

As a means for achieving the above object, the present invention is characterized in that the technical composition of the synthetic resin porous tube is sealed by injecting a predetermined amount of molten resin into each space located at both ends of the synthetic resin porous tube.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view illustrating a state in which a space is formed in a straight direction in a synthetic resin porous tube according to the present invention, and FIG. 2 is a cross-sectional view illustrating a state in which both ends of the synthetic resin porous tube of FIG. 1 are closed.

3 is a perspective view showing a state in which the space is spirally formed in the synthetic resin porous tube according to the present invention, Figure 4 is a cross-sectional view showing a state in which both ends of the synthetic resin porous tube of FIG.

5 is a block diagram showing a state in which the synthetic resin porous tube according to the present invention is sealed.

The synthetic resin porous pipe 100, 100a of the present invention is also molded in the form of a pipe by a pipe extrusion apparatus so as to be used as a drain pipe, sewer pipe, water supply pipe, etc. according to the purpose of use.

In addition, the present invention is not intended to be protected by the pipe extrusion molding apparatus for molding the synthetic resin porous tube 100 (100a), and that both ends of the synthetic resin porous tube 100 (100a) in which the space 200 is formed are sealed. Since the main purpose is to be protected as a right, a detailed description of the pipe extrusion apparatus and the extrusion method will be omitted.

On the other hand, the technical configuration used in the present invention, the space 120 is a synthetic resin porous tube 100 formed in a straight direction with respect to the longitudinal direction of the synthetic resin tube, or a synthetic resin porous tube spirally twisted with respect to the longitudinal direction of the synthetic resin tube ( It is used only for 100a).

1 to 5, the plurality of spaces 120 are formed in a linear direction with respect to the longitudinal direction of the synthetic resin porous tube 100 or spirally with respect to the longitudinal direction of the synthetic resin porous tube 100a as shown in FIGS. In the synthetic resin porous pipe that is torsionally formed and used to cut to a predetermined length, a synthetic resin porous pipe by injecting a predetermined amount of the molten resin 200 into each space 120 located at both ends of the synthetic resin porous pipe (100, 100a) ( The main purpose is to keep both ends of 100) (100a) closed.

When explaining the technical configuration for achieving the main object of the present invention as described above by the embodiment as follows.

(Example)

When the synthetic resin porous tube 100, 100a is extruded through a known pipe forming apparatus, the synthetic resin porous tube 100, 100a is cut into a predetermined length, and the cut end of the synthetic resin porous tube 100, 100a is placed in the molten resin injector 300. Thereafter, a predetermined amount of the molten resin 200 is injected into the space 120 through the molten resin injection device 300, thereby tightly closing the space to seal both ends of the synthetic resin porous tube 100 (100 a). .

Melt resin injection device 300 is a pedestal 310, the end of the synthetic resin porous tube 100, 100a cut into a predetermined length is inserted and seated protruding in the middle of the front end of the synthetic resin porous tube 100 (100a) A plurality of nozzle holes 120 are formed at a position corresponding to the space 120 in the close contact portion. The molten resin injector 300 is configured to be connected to the melt extruder 400 to receive the molten resin 200.

Here, the molten resin injector 300 is not limited to being used as a means for injecting the molten resin 200 into the synthetic resin porous pipes 100 and 100a, and the space of the synthetic resin porous pipes 100 and 100a. If it is possible to inject the molten resin 200 to 120, it turns out that the molten resin can be injected through various other configurations.

In order to use the present invention configured as described above, if the first extrusion molded into a synthetic resin porous tube 100, 100a having a space 120 on the wall 110 through a known pipe extrusion apparatus, this synthetic resin porous tube 100 100a is cut to a constant length. The cutting length at this time depends on the place used.

Thereafter, when one end of the cut synthetic resin porous pipe 100 or 100a is inserted into the pedestal 310 of the molten resin injector 300, the space 120 coincides with the nozzle hole 320. When the molten resin 200 is supplied through the melt extruder 400 in the above state, the molten resin 200 is injected into the space 120 through the nozzle hole 320, and the molten resin 200 is injected. Is hardened to seal the space 120.

If one end of the synthetic resin porous pipe (100, 100a) is sealed by the molten resin 200, the other end that is not sealed is to be sealed by the above method.

As described above, according to the present invention, since both ends of the synthetic resin porous tube cut to a predetermined length are tightly sealed by molten resin, the overall rigidity of the synthetic resin porous tube can be increased to prevent the tube from being crushed.

In addition, since the synthetic resin porous pipe is used in a state in which both ends are closed, the space formed on the synthetic resin porous pipe wall can more effectively insulate and soundproof more than before, and rainwater or foreign matter into the space during movement or work. It is possible to prevent the back from being injected.

Claims (1)

In the synthetic resin porous tube formed of a plurality of spaces are formed in a straight direction with respect to the longitudinal direction of the synthetic resin tube porous tube or spirally formed in the spiral direction with respect to the longitudinal direction of the synthetic resin tube porous tube, A synthetic resin porous pipe with both ends sealed to both ends of the synthetic resin porous pipe by injecting a predetermined amount of molten resin into each space located at both ends of the synthetic resin porous pipe.

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