KR200416884Y1 - Pipe with spongy body structure - Google Patents

Abstract

The present invention relates to a pipe having a cavernous structure filled with a reinforcing material of the cavernous structure to increase the durability of the pipe, the reinforcing material of the cavernous structure is solidified by expanding the contents of the pipe (10) widely used in vinyl houses or construction materials Filled with (40) to increase the durability to sufficiently withstand external shocks and loads. As a technical means to achieve this, a pipe having increased durability and elastic strength is filled with a durable reinforcing material, and a relatively small amount of the solid agent 42 and the volatile agent 46 are mixed in the expandable synthetic resin material 44. The reinforcing material 40 is put into one of the inside of the pipe 10, and at least one end of the pipe 10 to which the reinforcing material 40 is inserted is sealed by a rubber stopper 20a and a sealing cap 30 to the reinforcing material 40 is expanded so that the inside of the pipe 10 is filled with a sponge body structure.

Pipes, sponges, reinforcing agents, foamed plastics, solids, volatiles

Description

Pipe with spongy body structure

1 is a cross-sectional structural view of a pipe in which a reinforcing material mixed with a solid agent and a volatile agent in an expandable synthetic resin material according to the present invention.

Figure 2 is a cross-sectional structural view of a pipe in which the reinforcement is introduced in accordance with the present invention is expanded.

Figure 3 is a cross-sectional structural view of the pipe filled with the reinforced reinforcement in accordance with the present invention.

Explanation of symbols on the main parts of the drawings

10: pipe 20a, 20b: rubber stopper

30: sealing cap 40: reinforcing material

42: solid agent 44: foamable synthetic resin material

46: volatiles

The present invention relates to a pipe that increases the durability of the pipe by filling the inside of the pipe with a reinforcing material of the cavernous structure, and more specifically, the inside of the pipe widely used in vinyl houses or construction materials, etc. The present invention relates to a pipe having a cavernous structure that is dramatically increased in durability so as to be sufficiently filled with reinforcement to withstand external impacts or loads.

Pipes commonly used in vinyl houses or construction materials are made of steel or synthetic resin in a hollow form to form the structure of the structure.

However, until now, the pipe is a hollow form, so the reality is that it is insufficient in durability enough to withstand a certain load or an external impact. However, if the pipe itself is manufactured in the form of a bar filled with the same material, it is of course not expensive and practical.

Therefore, the thickness of the pipe is relatively thick or the number of installation of the pipe is increased so that it can withstand external impact or load. This resulted in an increase in manufacturing cost as well as waste of unnecessary installation work, and in reality, there is a lack of reliability that it can sufficiently endure a strong impact or load from the outside.

Therefore, the present invention is designed to provide a pipe that can sufficiently withstand external shocks or loads by improving the structural problems as described above with the conventional pipe, and volatilizes the inside of a conventional hollow pipe. When reacted with a volatile substance, bubbles are generated, and a foamed synthetic resin material having a porous sponge body structure is properly mixed and filled with a solid agent (solidifying material) so that the inside of the pipe is filled with a reinforcing material of the sponge body structure having a certain level of strength. It is an object to provide a pipe having a cavernous structure that can be changed as a reinforcing structure.

In particular, the reinforcement structure of the pipe according to the present invention, even if the inside of the pipe is filled with a reinforcement of the spongy structure, the durability to be reinforced without much increase in weight compared to the conventional pipe can be significantly increased, and further to increase the durability of the pipe The ultimate goal is to make the reinforcement to be filled relatively easily with low cost and simple work processes.

In order to achieve the above object, the pipe having a spongy structure according to the present invention is filled with a durable reinforcement therein and has a relatively high tensile strength and modulus of elasticity compared to a conventional pipe, and is a solid resin in a foamed synthetic resin material. And a reinforcing material mixed with a relatively small amount of volatile agent are introduced into one side of the pipe, and at least one end of the pipe into which the reinforcing material is injected is sealed with a rubber stopper and a sealing cap so that the reinforcing material is expanded to fill the pipe with a cavernous structure. It is composed.

In particular, the mixture constituting the reinforcing material is characterized in that the polyurethane foam is included as a foamable synthetic resin material, any one of cement powder or artificial stone powder and aircraft gasoline as a solid agent and a volatile agent.

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

1 to 3 illustrate a process in which a conventional hollow pipe 10 is filled with a reinforcing material 40 according to the present invention, and FIG. 1 shows a solid agent 42 and volatilized on the expandable synthetic resin material 44. The reinforcement 40 which mixed the 46th material was put into the inside of the pipe 10, and FIG. 2 is a rubber stopper 20a which blocks one side of the pipe 10 on which the reinforcement 40 was injected, and seals it. The reinforcement 40 is inflated to the opposite side in the sealed state with the cap 30, Figure 3 is used to use the end of the pipe 10 filled with a cavernous structure in the reinforcement 40 is expanded therein It shows the state cut cleanly.

As shown in the figure, according to the present invention is filled with a reinforcing material 40 of the spongy structure inside the pipe 10 having a tensile strength and elastic strength above a certain level, basically as a mixture of the reinforcing material 40 As a porous spongy body structure when the reinforcing material 40 is expanded, together with the solidifying agent 42 which is a solidifying material capable of increasing the degree of hardening relative to the foamable synthetic resin material 44 that is soft to the foamable synthetic resin material 44. Volatile 46, which is a volatile material, is properly blended to fill the pipe 40 to form the reinforcement 40.

In particular, the foamed synthetic resin material 44 that is relatively mixed as a base material among the materials constituting the reinforcing material 40 is preferably applied to the polyurethane foam, which is mixed with the solid agent 42 and the volatile agent 46 It is advantageous to control the size of bubbles (pore) generated during the expansion reaction with, and its weight is relatively light and the expansion reaction speed is also used as an optimal material.

In addition, the solid agent 42 used as the solidifying material of the expandable synthetic resin material 44 is preferably cement powder or artificial stone powder as an optimal material, and a volatile agent mixed in a relatively small amount compared to the solid agent 42 ( 46 is preferably a volatile substance and aircraft gasoline, which is very effective. In particular, the volatile 46 may also bring about the weight reduction of the reinforcing material 40, and the reaction is more rapid when the reinforcing material 40 expands while being liquefied as the foamed synthetic resin material 44 becomes a liquid with the solid agent 42. Make it happen actively.

Meanwhile, according to the present invention, the pipe 10 having the reinforcing material 40 having a reinforcing body structure filled therein has a reinforcing structure, the foamable synthetic resin material 44, the solid agent 42, and the volatile agent forming the reinforcing material 40. After the reinforcing material 40 is introduced into one end of the pipe 10 into which the reinforcing material 40 is introduced, the rubber is introduced after the reinforcing material 40 can be expanded while being sealed and reacted while the 46 is injected through one end of the pipe 10. Closing with a stopper 20a and sealing with a sealing cap 30 allows the reinforcement 40 to expand more reliably on the opposite side.

In addition, the rubber plug 20b is also blocked so that the volatile 46 contained in the reinforcing material 40 expanded to the opposite side of the pipe 10 into which the reinforcing material 40 is not injected may be volatilized, which is volatilized. By slowing down the degree of departure of the 46th material, the volatile synthetic resin material 44 can fill the inside of the pipe 10 by making the reaction between the solid agent 42 and the volatile agent 46 more quickly and evenly. Make sure

In particular, when the reinforcing material 40 introduced into one side of the pipe 10 is expanded while reacting, the degree of departure of the volatiles 46 included in the reinforcing material 40 may be delayed as much as possible. The rubber stopper 20b, which is located on the opposite side, moves in the opposite direction with the expansion of the reinforcement 40 rather than the end of the pipe, so that even mixing and expansion of the reinforcement 40 can be achieved. It is preferred to be located at.

In this way, the inside of the pipe 10 is filled with a reinforcing material 40 of the sponge body structure, which can significantly increase the tensile strength and elastic strength compared to the conventional pipe, many times many times until the above results are obtained. Through experiments, several representative examples thereof can objectively prove that the pipe of the present invention is significantly improved durability compared to the conventional pipe.

Example 1

Existing conventional pipes were bent in a V-shape at a load of 5 kg when a load was applied to the middle of a vinyl house pipe of about 2M in length.

Example 2

Styrofoam granules (corresponding to polyurethane foam, a foamable synthetic resin material) moistened with a conventional pipe like Example 1 were coated with cement powder as a solid agent to fill the inside of the pipe, and the pipe was bent at a load of 7 kg when applied. However, unlike the pipe of Example 1, it was not completely bent.

Example 3

When pipes such as polyurethane foam and gasoline aviation gasoline were mixed and filled in the same pipe as in Examples 1 and 2, the pipe was bent at a load of 9 kg, and was folded as in Example 1 although it was slightly folded than in Example 2. There was no support. If the polyurethane foam was more rigid, it would be able to withstand higher loads.

Example 4

Example 1, 2, and 3 pipes were bent at a load of 11 kg when filled with a reinforcing material, a compounding material in which an artificial stone powder, a polyurethane foam, and a volatile agent were properly mixed and loaded. It was not completely folded into the same shape as.

<Experiment Result>

In the above embodiments, the pipe 10 filled with the reinforcing material 40 in the sponge body structure was found to be higher in strength (durability) than the conventional pipe.

On the other hand, in the fourth embodiment to form a pipe of the present invention to form the pipe 10 is filled with the reinforcing material 40 of the spongy structure is expanded and filled therein, basically put a lot of foamable synthetic resin material 44 A relatively small amount of the solid agent 42 and the volatile agent 46 is added and mixed, and as a result of several experiments, two to one of these foamable synthetic resin materials 44, the solid agent 42 and the volatile agent 46 are used. When mixing at a compounding ratio of about 0.5, it can be seen that the reinforcement 40 having a certain level or more of durability may be formed inside the pipe 10 as a sponge body structure.

In particular, it is possible to adjust the size (porous form) of the bubbles generated in the reinforcing material 40, which is a sponge body structure according to the amount of the volatile agent 46 added to the compounding material of the reinforcing material 40, the foamed synthetic resin material 44 and According to the amount of the solid agent 42, the degree of softness and hardness can be adjusted. This is a sponge body structure of the reinforcing material 40 is formed while solidifying after the expansion reaction according to the mixing ratio of the reinforcing material 40, which is a compounding material can control the bubble size, tensile strength and elastic strength. Of course, according to the present invention described above, the pipe 10 filled with the reinforcing material 40 therein may be finished by cutting the required length of course.

As described above, the pipe having a spongy structure according to the present invention is added to the reinforcing material by appropriately mixing a solid and a volatile agent together with a foamable synthetic resin material in a conventional pipe used as a vinyl house or building materials, The reinforcement may be expanded and filled with a durable reinforcement as a cavernous structure, thereby significantly increasing the tensile strength and the elastic strength of the pipe.

Moreover, even if the inside of the pipe is filled with a reinforcement material of the spongy structure, the durability of the reinforcement can be dramatically increased without increasing the weight, and in particular, the formation of the reinforcing material of the spongy structure filled with the pipe to increase the durability is small. It can be done relatively easily with cost and simple work process.

Claims (2)

It is a pipe filled with durable reinforcing material, A reinforcing material 40 in which a relatively small mixture of the solid agent 42 and the volatile agent 46 is mixed into the expandable synthetic resin material 44 is introduced into one side of the pipe 10, and at least the pipe into which the reinforcing material 40 is introduced ( One end of the pipe 10 is sealed with a rubber stopper 20a and a sealing cap 30 so that the reinforcing material 40 is expanded so that the inside of the pipe 10 is filled with a cavernous structure. . The method of claim 1, The mixture constituting the reinforcing material 40 includes a polyurethane foam as the expandable synthetic resin material 44, and any one of cement powder or artificial stone powder as the solid agent 42 and the volatile agent 46 and aircraft gasoline. Pipe having a cavernous structure, characterized in that.

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