KR101452904B1 - Triple-layered pipe - Google Patents

Abstract

The present invention relates to a triple-layered pipe including: a packed layer containing aluminum compositions as compositions including pulverized waste aluminum wrapping film and synthetic resin mixed and molten; an inner skin layer attached to an inner circumference of the packed layer including the synthetic resin; and an outer skin layer attached to an outer circumference of the packed layer including the synthetic resin.

Description

TRIPLE-LAYERED PIPE

The present invention relates to a triple-packed wall pipe, and more particularly, a packing layer is disposed between an inner layer and an outer layer. The packed layer is obtained by crushing a waste aluminum wrapping film which is not easily recycled, The present invention relates to a triple-filled pipe wall capable of compensating for ductility and impact resistance, which is a problem caused by the recycling of waste synthetic resin, by allowing a strip-shaped aluminum composition to be placed upon manufacture.

For example, in Korean Patent No. 0332633, recycled waste plastics raw materials are regenerated to form an inner pipe (inner skin) structure, and a plastic raw material, rather than a recycled plastic raw material, is recycled. It is possible to recycle resources and protect the environment by using recycled plastic, and it is possible to increase the strength of pressure resistance even with a simple structure, and further, by using only new outer plastic material, A plastic hume pipe having a multi-layered structure using waste plastic is proposed, which can make the appearance of the hose even more beautiful.

However, when the waste synthetic resin (plastic) is used as a raw material, there is a problem that physical properties such as ductility, impact resistance and strength are deteriorated as compared with the case of using synthetic resin rather than recycling.

On the other hand, waste aluminum plastic film among the waste synthetic resins is incapable of recycling, and aluminum residues are currently buried after incineration. Therefore, it is necessary to study the recycling of such aluminum aluminum wrap film.

Korean Patent Registration No. 0332633

The present invention is to provide a triple-filled pipe wall which can recycle waste aluminum wrapping paper film and compensate for physical properties such as ductility and impact resistance, which are problems associated with waste recycled synthetic resin recycling.

In order to solve the above-mentioned technical problems, the present invention provides a triple-filled wall pipe having the following technical characteristics.

The triple-filled pipe wall according to the present invention is produced by mixing and melting a pulverized waste aluminum wrapping film and a composition comprising a synthetic resin resin to form a filling layer containing an aluminum composition therein; An endothelial layer attached to the inner periphery of the filling layer; And an outer skin layer attached to an outer periphery of the filling layer.

Here, the term "synthetic resin resin" refers to resins of various materials, in particular polyethylene (PE).

Preferably, the composition comprises 20 to 70 parts by weight of pulverized waste aluminum wrapping film, 10 to 50 parts by weight of filler, 1 to 3 parts by weight of lubricant, 1 to 3 parts by weight of stabilizer, 5 to 3 parts by weight of impact modifier, 10 parts by weight, and 0.01 to 0.05 parts by weight of stearic acid.

More preferably, the filler is one or a mixture of calcium carbonate and hydrotalcite.

In addition, it is appropriate that the composition further contains 0.1 to 0.5 parts by weight of the citrate per 100 parts by weight of the synthetic resin resin.

The triple-filled wall pipe according to the present invention has an advantage of being environmentally friendly by recycling waste aluminum wrapping paper film, which is conventionally incapable of being recycled.

In addition, the triple-filled pipe wall according to the present invention has an advantage that ductility and impact resistance can be improved despite the waste plastic recycling by allowing the aluminum composition to be introduced by melting by pulverizing the waste aluminum wrapping paper film.

Further, the triple-filled pipe wall according to the present invention has an advantage of excellent durability by controlling the crack due to the inclusion of the aluminum composition.

In addition, the triple-filled wall pipe according to the present invention has an advantage of being economical because it can prevent degradation of strength even though waste plastics are recycled, and at the same time, can prevent deterioration of durability of a manufacturing machine.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a view showing one embodiment of a triple-filled wall pipe according to the present invention. Fig.
2 is a cross-sectional view showing a triple-filled wall pipe according to the present invention.
3 is a schematic view showing an example of a manufacturing apparatus for manufacturing a triple-charged wall pipe according to the present invention.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

1 and 2, the triple-charged pipe wall 1 of the present invention comprises a filling layer 10 including an aluminum composition 11, an inner layer 20 attached to the inner periphery of the filling layer 10, And an outer skin layer 30 attached to the outer periphery of the filling layer 10.

The filling layer 10 is characterized by mixing and melting the pulverized waste aluminum wrapping film and the composition including the synthetic resin resin so that the aluminum composition 11 is contained therein.

The waste aluminum wrapping paper film is made of a synthetic resin film such as polyester (PET), polypropylene (PP), and polyethylene (PE) This waste aluminum wrapping paper film is now treated by simple incineration without any additional regeneration treatment and the aluminum as the incineration residue is buried so that it is not easily recycled or is not being recycled. .

On the other hand, in the recycling of waste plastics in the related art, since it is recycled as a heterogeneous plastic mixture, there is a problem that the ductility and the impact strength are lower than those of general plastic products.

In the present invention, the waste aluminum wrapping paper film is pulverized and mixed with the synthetic resin resin and melted to form the filling layer 10, thereby recycling waste aluminum wrapping paper film while recycling the waste aluminum wrapping paper film, Accordingly, even when different kinds of synthetic resins are mixed, the aluminum composition 11 is placed so as to complement the ductility and impact resistance. That is, it is possible to recycle waste aluminum wrapping paper film, and at the same time, softness and impact resistance are complemented by aluminum composition (11) even if two kinds of synthetic resins are mixed.

As shown in FIG. 1, the aluminum composition (11) causes aluminum in the waste aluminum wrapping film to be disposed on the filling layer (10) as the waste aluminum wrapping film is crushed and melted. As shown in FIG. 1, It is published in the form. The aluminum layer is formed on the inner layer 20 or the outer layer 30 so as to communicate with the filler layer 10 in such a manner that the band- So that the impact resistance of the filling layer 10 can be improved.

In the composition for forming the filling layer 10, synthetic resin resins other than pulverized waste aluminum wrapping film may be used as various kinds of synthetic resin resins as new materials which are not recycled. For example, when polyethylene (PE) resin is used, the average degree of polymerization is preferably in the range of 800 to 1,000. When the degree of polymerization is less than 800, there is a problem that the tensile strength is lowered. When the degree of polymerization is more than 1,000, the workability is lowered.

Preferably, the composition for forming the filler layer 10 comprises 20 to 70 parts by weight of pulverized waste aluminum wrapper film, 10 to 50 parts by weight of a filler, 1 to 3 parts by weight of a lubricant, 5 to 10 parts by weight of an impact modifier, and 0.01 to 0.05 parts by weight of stearic acid.

As the stabilizer, a tin system and calcium zinc may be used. Preferably, the stabilizer is mixed with 1 to 3 parts by weight of a stabilizer. The stabilizer prevents carbonization of the synthetic resin resin due to heat applied for processing. When it is used in an amount of less than 1 part by weight, the effect is insignificant. When it exceeds 3 parts by weight, the impact strength is lowered and the production cost is increased. Such a stabilizer may be used together with 1 to 3 parts by weight of the lubricant, and the lubricant may be stearyl alcohol, stearyl butyl, or the like.

As the impact modifier, one or two or more of Methyl Methacrylate-Butadiene Styrene (MBS), acrylic and butadiene series may be used, and the compounding ratio is limited to 5 to 10 parts by weight. As described above, the impact resistance of the entire tube is reinforced together with the aluminum composition (11) by blending the impact modifier. However, reinforcing the impact resistance by such an impact modifier may cause a brittle problem in fracture, so that the filling layer 10 is provided with an aluminum composition 11 to be ducted so as to complement each other will be.

Particularly, the filling layer 10 further contains 0.01 to 0.05 parts by weight of stearic acid per 100 parts by weight of the synthetic resin resin. In the case of the aluminum composition 11, the filling layer 10 may be reinforced with ductility and impact resistance Cracks may be generated in the aluminum composition (11) due to a difference in mutual thermal expansion rate, for example, in the curing process, which may cause a decrease in durability. In the present invention, such cracks are controlled by further adding stearic acid.

The stearic acid has the characteristic of externally absorbing the heat amount required for the phase change at a constant phase transition temp. When the filling tube 10 is manufactured by mixing and melting the composition, the heat due to the curing reaction When the phase transition temperature is reached, the stearic acid absorbs heat due to the physical phase change, thereby reducing the total hardening heat, thereby correcting the thermal expansion coefficient between the aluminum composition (11) and the other composition, thereby reducing the crack. That is, it is possible to control the crack due to the shrinkage due to the expansion in the curing process according to the heat reduction.

In addition, the composition for forming the filling layer 10 in the present invention may include one or a mixture of calcium carbonate and hydrotalcite as a filler. This is because, as mentioned above, when the waste synthetic resin is recycled, The mixing of the synthetic resin of the synthetic resin is inevitable and the strength is prevented from lowering.

Also, when waste plastics are used, waste plastics are mixed with PVC, so that hydrochloric acid is generated during the process of melting. Such hydrochloric acid causes a problem of corrosion in the manufacturing machine including the mold. Accordingly, in the present invention, it is proper to use a mixture of calcium carbonate and hydrotalcite as a filler. In addition to the strength reinforcement by calcium carbonate, the generation of hydrochloric acid is controlled by hydrotalcite to prevent corrosion in the manufacturing machine . Considering economical efficiency and strength, it is proper that calcium carbonate and hydrotalcite are mixed in a weight ratio of 60:40 to 70:30.

In addition, in the present invention, 0.1 to 0.5 parts by weight of a citrate is added to 100 parts by weight of the synthetic resin resin in the composition for forming the filler layer 10 so that the other composition is uniformly distributed, So that uniform physical properties can be expressed. That is, when the composition is mixed and melted, the waste synthetic resin and the synthetic resin resin are mixed with each other. When the particles are small, they tends to aggregate with each other. Therefore, when the waste synthetic resin is mixed due to uneven mixing, Can not be secured and a vulnerable portion can be formed in the entire tube.

Thus, the citrate is further compounded to provide a repulsive force between the waste synthetic resin and the synthetic resin resin particles so as to control the agglomeration among the particles to achieve uniform filling. The reason why the compounding ratio of the above-mentioned citrate is limited to 0.1 to 0.5 part by weight with respect to 100 parts by weight of the synthetic resin resin is that if the amount exceeds 0.5 part by weight, the repulsive electrostatic force becomes too large and non-uniform filling may occur.

1, an endothelial layer 20 attached to the inner periphery of the filling layer 10 and an outer layer 30 attached to the outer periphery of the filling layer 10 are formed in the triple- The endothelial layer 20 and the outer layer 30 are formed on the basis of a synthetic resin resin of various materials. The stabilizer, the lubricant, the impact modifier, the pigment and the like mentioned above are selectively mixed It is natural to be able to.

As described above, according to the present invention, only the synthetic resin resin is used for the inner layer layer 20 and the outer skin layer 30 that are in contact with the outside while forming the triple-charged pipe wall 1, and the pulverized waste aluminum The problem of using recycled synthetic resin is reinforced by the aluminum composition included in the abolition, while the problem of crack due to the addition of aluminum composition is solved by stearic acid while allowing recycled synthetic resin using wrapping film to be used, The strength degradation due to the mixing of the waste synthetic resin and the corrosion of the device are reinforced by a filler composed of a mixture of calcium carbonate and hydrotalcite.

An example of an apparatus for manufacturing a triple-charged pipe wall 1 of the present invention will be described below. As shown in FIG. 3, a packed bed extruder 1000 for crushing, melting and compressing a pulverized waste aluminum wrapping film is provided. In the packed bed extruder 1000, (2000) for extruding and forming an endothelium layer in close contact with the inner periphery of a filling layer formed by extrusion, and a material including a synthetic resin resin same as the endothelial layer so as to be adhered to the outer periphery of the filling layer to form an outer skin layer. And an extruder 2100 for extruding the outer layer.

The packed bed extruder 1000 includes a primary crushing melter 1100 in which the above-mentioned waste aluminum wrapping paper film is primarily crushed and melted, and a secondary crushing melter 1100 in which the recycled material introduced from the primary crushing melter 1100 And a secondary melting machine 1200 which is primarily melted.

The melted recycled material in the secondary melter 1200 flows into a dispenser compartment 1118 in the form of a hopper and is extruded downwardly to be supplied to a rotating roller (not shown) of a tensioner 4000 located below the dispenser 1118 4300). The tensioner 4000 is provided with a rotating roller 4300 rotated by a motor, and the rotating roller 4300 is formed of a plurality of rollers. Although not shown in the figure, the pulverized waste aluminum wrapping paper film and the general synthetic resin resin are mixed with each other to melt the pulverized aluminum wrapping paper film by connecting the synthetic resin resin feeding means to the primary pulverization melting machine 1100.

The endothelial layer extruder 2000 is used to melt and extrude the synthetic resin raw material. The endothelial layer extruder 2000 is formed with a raw material inlet 2020 for introducing a composition containing synthetic resin resin (PE) And the melted raw material is transferred to the stretching machine 4000 side to be attached with an extrusion die or a guide. The detailed description of the endothelial layer extruder 2000 is omitted.

The outer layer extruder 2100 is used to melt and extrude the synthetic resin raw material as in the endothelium layer extruder 2000 and is formed with a raw material input port 2020 for inputting a composition including synthetic resin resin (PE) And a body 2121 which is heated to about 200 ° C to melt the supplied raw material so as to be melted so as to be able to extrude the molten plastic raw material to the stretching machine 4000. The end of the body 2121 is stamped And an outer shell layer discharge pipe 220 for discharging the outer shell layer 4000 side.

Hereinafter, embodiments of the present invention will be described based on experimental examples of the present invention.

≪ Example 1 >

40 parts by weight of a pulverized waste aluminum wrapping film 50, 40 parts by weight of a filler mixed with calcium carbonate and hydrotalcite in a weight ratio of 70: 30, 100 parts by weight of calcium zinc 1 8 parts by weight of MBS, and 0.03 part by weight of stearic acid were mixed, and the inner shell layer composition was made into a general formulation containing polyethylene resin, and a triple-filled wall pipe was manufactured through the above manufacturing apparatus.

≪ Example 2 >

40 parts by weight of a crushed waste aluminum wrapping paper film 50, 40 parts by weight of a filler mixed with calcium carbonate and hydrotalcite at a weight ratio of 70: 30, 1 part by weight of calcium zinc, And 8 parts by weight of MBS were blended, and a general formulation including polyvinyl chloride resin as an inner shell layer composition was made to prepare a triple-filled wall pipe through the above-described production apparatus.

≪ Comparative Example 1 &

40 parts by weight of a pulverized waste plastic 50, 40 parts by weight of a filler mixed with calcium carbonate and hydrotalcite in a weight ratio of 70:30, 1 part by weight of calcium zinc, 8 parts by weight of MBS 8 And a general formulation containing polyvinyl chloride resin as the inner skin layer composition was made to prepare a triple-filled wall pipe through the above production apparatus.

≪ Comparative Example 2 &

As a filler layer composition, 100 parts by weight of a polyethylene resin having a degree of polymerization of 900 was blended with pulverized waste plastic 50, 1 part by weight of calcium zinc and 8 parts by weight of MBS, and a general formulation including polyvinyl chloride resin as an inner shell layer composition was carried out, A triple packed wall pipe was manufactured through a manufacturing apparatus.

 ≪ Tensile Strength and Impact Test >

Tensile strength and impact test were conducted according to the test standards of KS M 3401 for Examples 1 and 2 and Comparative Examples 1 and 2 prepared as described above, and the results are shown in [Table 1].

As shown in [Table 1], it can be seen that the tensile strength and the impact strength of the examples satisfy the KS standard value, but the comparative examples do not satisfy the KS standard value of the tensile strength and the impact strength. It is believed that the embodiments are based on the use of recycled synthetic resin in the filling layer and the use of waste aluminum wrap film in the comparative examples. In the case of the embodiments, the waste aluminum wrapping film is used as the recycled synthetic resin, It is believed that this is because reinforcement of ductility is reinforced and impact resistance is reinforced. That is, in the comparative examples, the use of a common waste synthetic resin results in a decrease in strength and ductility due to the mixing of different types of synthetic resin. In all of the comparative examples, even when an impact modifier is mixed, It can be seen that even when the filler is blended, the tensile strength is remarkably lowered compared with the examples.

Comparing Example 1 and Example 2, it can be seen that Example 1 is superior to Example 2 in terms of tensile strength and impact resistance. In the case of Examples 1 and 2, in the case of using recycled synthetic resin, In the case of Example 1, temperature cracking due to the difference in thermal expansion coefficient between the aluminum composition and the other composition is further controlled by mixing and controlling stearic acid so that the tensile strength and the impact resistance are controlled by the stearic acid Is better than the case of Example 2 in which the composition is not blended.

The foregoing description is merely illustrative of the technical idea of the present invention and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

1: triple-filled wall pipe 10: filling layer
11: aluminum composition 20: endothelial layer
30: envelope layer 1000: filling layer extruder
2000: Endothelial layer extruder 4000: Tensile machine

Claims (5)

A filling layer configured to mix and melt the pulverized aluminum wrapping film and the filling layer composition including the synthetic resin resin so that the aluminum composition is contained therein, wherein the aluminum composition is contained in the form of a band;
An endothelial layer attached to the inner periphery of the filling layer;
An outer layer attached to an outer periphery of the filling layer; And
Wherein the wall is formed of a metal.
delete The method according to claim 1,
The composition may comprise,
20 to 70 parts by weight of pulverized aluminum wrapping paper film, 10 to 50 parts by weight of a filler, 1 to 3 parts by weight of a lubricant, 1 to 3 parts by weight of a stabilizer, 5 to 10 parts by weight of an impact modifier, And 0.01 to 0.05 part by weight of the triple-walled pipe.
The method of claim 3,
Wherein the filler is one of calcium carbonate and hydrotalcite or a mixture thereof.
The method of claim 3,
Wherein 0.1 to 0.5 parts by weight of a citrate is further blended with 100 parts by weight of the synthetic resin resin.

Images