KR101174307B1 - Frame-retardant double insulation pipe, apparatus and method for manufacturing frame-retardant poly ethylen outside pipe - Google Patents

Abstract

PURPOSE: A flame-retardant dual insulating pipe, equipment for manufacturing a flame-retardant PE(polyethylene) outer pipe of the flame-retardant dual insulating pipe, and a method for manufacturing the flame-retardant PE(polyethylene) outer pipe of the flame-retardant dual insulating pipe using the same are provided to prevent fires even when the flame-retardant PE(polyethylene) outer pipe is exposed to the outside. CONSTITUTION: A flame-retardant dual insulating pipe(1) comprises an inner pipe(10), an outer pipe(30), and insulating materials(20). The insulating materials are formed between the inner and outer pipes. The outer pipe is manufactured by mixing PE with flame retardants, and comprises flame retardancy. The insulating materials a flame-retardant master batch, and comprise pellet shapes. The outer pipe is made of 100wt% HDPE and 5~50wt% master batch.

Description

Flame retardant double insulation pipe, apparatus and method for manufacturing Frame-retardant poly ethylen outside pipe }

The present invention relates to a flame-retardant double insulation tube, a flame-retardant PE appearance of the double insulation tube and a method of producing a flame-retardant PE appearance of the double insulation tube using the apparatus. More specifically, in a double heat insulation tube having a heat insulating material between the inner pipe and the outer pipe, the outer pipe is extruded into a flame-retardant PE exterior in which a flame-retardant masterbatch and a high density polyethylene are mixed, so that the flame-retardant double pipe can be used not only for embedding but also as an external exposed pipe. The present invention relates to a heat insulating tube, a flame retardant PE appearance manufacturing apparatus of the double heat insulating tube, and a manufacturing method thereof.

Double insulation pipe is used widely for district heating pipe, common use energy pipe, cogeneration power pipe, steam hot water pipe, freeze protection pipe, and fire pipe as it can obtain insulation and insulation effect between insulation and inner pipe. .

The heat insulating material used for the double insulation pipe is manufactured for thermal insulation including a jacket pipe (jacket pipe) using hard polyurethane and the like, and is used for piping. Usually, the inner tube of the double heat insulation tube is composed of steel pipe, stainless steel (SUS) pipe, copper pipe, double composite pipe (SUS + iron, SUS + aluminum, iron + iron) or polyethylene (PE) pipe, etc. ) Elbow high density polyethylene tube is used for the direction change.

The double heat insulation pipe of such a configuration is used for district heating construction pipes and hot spring water pipes for medium temperature water, or is used for water and sewage freeze protection pipes, steam transport pipes, and fire pipes. However, the double heat insulation tube made of high density polyethylene resin is used only for underground embedding, and when exposed to the outside, there is a problem of catching fire in case of exposure to the outside, and there is a problem that there is a possibility of spontaneous release due to the external temperature difference in the exposed piping. exist.

In addition, there is a risk of fire in the circumference of the worker during construction piping, and the current appearance when using the AL SPIRAL pipe (aluminum spiral pipe), but has a problem that the manufacturing cost is high. Therefore, there has been a need for a flame-retardant double heat insulating tube that is composed of a PE tube and at the same time has a flame retardancy that does not burn when exposed to the outside, and a method and a manufacturing apparatus thereof.

The present invention has been made to solve the above problems, according to one embodiment of the present invention by extruding the appearance of a double heat insulation tube to be produced as a flame-retardant PE pipe to multipurpose without distinction between underground laying and external exposure Provided are a flame retardant double heat insulation tube usable, a flame retardant PE appearance manufacturing apparatus of the double heat insulation tube, and a flame retardant PE appearance manufacturing method of a double heat insulation tube using the manufacturing apparatus.

In addition, the flame-retardant double insulation tube according to an embodiment of the present invention includes a flame-retardant PE exterior composed of a mixture of high-density polyethylene and a pallet-type masterbatch containing a flame-retardant component to increase the acidic index to increase the risk of fire even when exposed to the outside A flame retardant double heat insulation tube, a flame retardant appearance PE manufacturing apparatus of the double heat insulation tube and a flame retardant appearance PE manufacturing method of a double heat insulation tube using the manufacturing apparatus.

In addition, the appearance of the flame-retardant double insulation tube according to an embodiment of the present invention is composed by mixing the master batch in the form of a pallet containing a high-density polyethylene and a flame-retardant component other than the conventional AL SPIRAL can have a flame retardancy and at the same time lower the manufacturing cost There is provided an economical flame-retardant double insulation tube, a flame retardant PE appearance manufacturing apparatus of the double insulation tube and a flame-retardant PE appearance of the double insulation tube using the manufacturing apparatus.

In addition, a flame-retardant double heat insulation tube with a high density of polyethylene and a flame-retardant polyethylene resin mixed with a flame-retardant component is introduced into an extruder to produce a flame-retardant PE appearance by extrusion molding. Apparatus for producing a flame-retardant PE appearance of the pipe and a method for producing a flame-retardant PE appearance of the double insulation tube using the apparatus.

Other objects, specific advantages and novel features of the present invention will become more apparent from the following detailed description and preferred embodiments in conjunction with the accompanying drawings.

A first object of the present invention is a double heat insulating tube having an inner tube and an outer tube and a heat insulating material between the inner tube and the outer tube, wherein the outer tube is formed of a mixture of polyethylene and a flame retardant, thereby achieving flame retardant double heat insulating tube. Can be.

The flame retardant may be characterized by being a flame retardant masterbatch in pallet form.

Appearance may be characterized in that the flame retardant master batch is composed of 5 to 50 parts by weight in 100 parts by weight of high density polyethylene.

The flame retardant masterbatch may be characterized by consisting of 20 to 70% by weight of low density polyethylene and 30 to 80% by weight of flame retardant components.

The flame retardant component may be characterized by consisting of non-toxic brominated flame retardant 30 to 55% by weight, inorganic flame retardant 10 to 20% by weight, dispersant and lubricant 1 to 5% by weight and low density polyethylene 20 to 50% by weight.

The heat insulating material may be characterized in that the rigid polyurethane.

The inner tube may be characterized in that the steel pipe, SUS pipe, copper pipe, carbon steel pipe, double composite pipe (SUS + iron, SUS + aluminum, iron + iron) or PE pipe.

A second object of the present invention is a flame retardant PE outer appearance manufacturing apparatus of the aforementioned double heat insulation tube, the flame retardant storage tank is stored therein; PE storage tank in which the high density polyethylene resin is stored; A mixing tank connected to the flame retardant storage tank and the PE storage tank, to which the flame retardant stored in the flame retardant storage tank and the high density polyethylene resin stored in the PE storage tank are mixed to produce the flame retardant polyethylene resin by mixing the flame retardant and the high density polyethylene resin; And it can be achieved as a flame-retardant PE appearance manufacturing apparatus of the double heat insulation tube, characterized in that it comprises an extruder having a plurality of molds and the flame-retardant polyethylene resin produced in the mixing tank to emit the flame-retardant PE appearance.

It may be characterized in that it is further provided between the flame retardant storage tank and the mixing tank, and between the PE storage tank and the mixing tank, each of the input amount measuring device for measuring the input amount of the flame retardant and the high-density polyethylene to the mixing tank.

It may be characterized in that it further comprises a stirrer provided inside the mixing tank for mixing the flame retardant and high density polyethylene.

In addition, in the flame retardant PE appearance manufacturing apparatus, the flame retardant may be characterized in that the flame-retardant masterbatch of the pallet form.

In addition, in the flame retardant PE appearance manufacturing apparatus, the flame retardant masterbatch is composed of 20 to 70% by weight of low density polyethylene and 30 to 80% by weight of the flame retardant component, the flame retardant component is 30 to 55% by weight of non-toxic brominated flame retardant, inorganic flame retardant 10 ~ It may be characterized by consisting of 20% by weight, 1 to 5% by weight of the dispersant and lubricant and 20 to 50% by weight of low density polyethylene.

And, in the flame-retardant PE appearance manufacturing apparatus, the flame-retardant polyethylene resin may be characterized by consisting of 100 parts by weight of high density polyethylene and 5 to 50 parts by weight of flame retardant masterbatch.

It may be characterized in that it further comprises an input device for feeding the color master batch for the extruder.

It may be characterized in that it further comprises a heating means for heating the extruder.

The third object of the present invention is to prepare a flame-retardant PE appearance of the double insulation tube using the flame-retardant PE appearance manufacturing apparatus mentioned above, a pallet-type flame-retardant master batch in the flame retardant storage tank, high density polyethylene in the PE storage tank Introducing a resin; Introducing a flame retardant masterbatch and a high density polyethylene resin into a mixing tank connected to a flame retardant storage tank and a PE storage tank; Operating a stirrer provided in the mixing tank to stir the flame retardant master batch and the high density polyethylene resin to produce a flame retardant polyethylene resin; Injecting a flame retardant polyethylene resin into the inlet of the extruder; And flame retardant PE appearance according to the mold provided to the extruder by operating the extruder. The flame retardant PE appearance of the double heat insulation tube may be achieved.

In the mixing tank, 5 to 50% by weight of the flame retardant master batch and 70 to 95% by weight of the high-density polyethylene are mixed by an input measuring device provided between the flame retardant storage tank and the mixing tank and between the PE storage tank and the mixing tank. It may be characterized in that the input to the tank.

The step of introducing into the inlet of the extruder, by operating the input device may be characterized in that it further comprises the step of introducing 1 to 15% by weight of the master batch for color development into the extruder inlet.

In addition, in the method of manufacturing a flame retardant PE appearance, the flame retardant masterbatch is composed of 20 to 70% by weight of low density polyethylene and 30 to 80% by weight of a flame retardant component, and the flame retardant component is 30 to 55% by weight of a non-toxic brominated flame retardant, and 10 to inorganic flame retardant. It may be characterized by consisting of 20% by weight, 1 to 5% by weight of the dispersant and lubricant and 20 to 50% by weight of low density polyethylene.

Therefore, according to one embodiment of the present invention as described, by producing the flame-retardant PE pipe by extruding the appearance of the double heat insulation tube has an effect that can be used for multi-purpose without distinction between underground laying and external exposure.

In addition, the flame-retardant double insulation tube according to an embodiment of the present invention includes a flame-retardant PE exterior composed of a mixture of high-density polyethylene and a pallet-type masterbatch containing a flame-retardant component to increase the acidic index to increase the risk of fire even when exposed to the outside There is no advantage.

In addition, the appearance of the flame-retardant double insulation tube according to an embodiment of the present invention is composed by mixing the master batch in the form of a pallet containing a high-density polyethylene and a flame-retardant component other than the conventional AL SPIRAL can have a flame retardancy and at the same time lower the manufacturing cost It has the advantage of being economical.

In addition, a flame-retardant polyethylene resin mixed with a high-density polyethylene and a pallet-type masterbatch containing a flame-retardant component can be introduced into an extruder to produce a flame-retardant PE appearance by extrusion molding, thereby increasing the production efficiency.

Although the present invention has been described in connection with the above-mentioned preferred embodiments, it will be appreciated by those skilled in the art that various other modifications and variations can be made without departing from the spirit and scope of the invention, All fall within the scope of the appended claims.

1 is a partial perspective view of a flame retardant double thermal insulation tube according to an embodiment of the present invention,
Figure 2 is a perspective view of a flame retardant masterbatch mixed in the flame retardant PE appearance of another double insulation tube in one embodiment of the present invention,
3 is a test result of the flame retardant PE appearance containing a flame retardant masterbatch according to an embodiment of the present invention,
4 is a test analysis result table of the flame retardant PE appearance containing a flame retardant masterbatch according to an embodiment of the present invention,
Figure 5 is a block diagram showing the configuration of the flame retardant PE external appearance manufacturing apparatus of the double insulation tube according to an embodiment of the present invention,
Figure 6 shows a flow chart of a method for producing a flame-retardant PE appearance using the apparatus for producing a flame-retardant PE appearance.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the detailed description of known functions and configurations incorporated herein will be omitted when it may unnecessarily obscure the subject matter of the present invention.

In addition, the same reference numerals are used for parts having similar functions and functions throughout the drawings. Throughout the specification, when a part is connected to another part, this includes not only the case where it is directly connected, but also the case where it is indirectly connected with another element in between. In addition, the inclusion of any component does not exclude other components unless specifically stated otherwise, it means that may further include other components.

<Flammability Of double insulation tube  Configuration>

Hereinafter will be described the configuration of the flame retardant double insulation tube 1 according to an embodiment of the present invention. First, Figure 1 shows a partial perspective view of a flame retardant double heat insulation tube 1 according to an embodiment of the present invention. As shown in FIG. 1, a flame retardant double heat insulating tube 1 according to an embodiment of the present invention includes an inner tube 10 and a flame retardant PE exterior 30, and between an inner tube 10 and a flame retardant PE exterior 30. It can be seen that it includes a heat insulating material 20 provided.

Inner tube 10 according to an embodiment of the present invention may be composed of a steel pipe, SUS pipe, copper pipe, carbon steel pipe, double composite pipe (SUS + iron, SUS + aluminum, iron + iron) or PE pipe. And, the heat insulating material 20 according to an embodiment of the present invention used a rigid polyurethane foam (PUR).

In addition, the flame retardant PE appearance 30 according to the embodiment of the present invention is configured by mixing a high density polyethylene resin (HDPE) and a flame retardant. Flame retardant according to an embodiment of the present invention is to be composed of a flame retardant master batch (pellet). In the process of molding plastic by extrusion or injection method, it gives a color or some special function of plastic to be made according to the needs of consumers. Additives that have color or function are generally powdery or liquid, so it is difficult to mix them directly with plastic raw materials, and because of poor kneading with plastic raw materials, they have a poor color or special function. Will not be able to produce.

Therefore, the PE exterior 30 of the flame-retardant double insulation tube 1 according to an embodiment of the present invention is configured by mixing a master batch in a high density polyethylene. The master batch means a pellet-shaped raw material in which the plastic raw material and the additive to be added are concentrated and dispersed at a high concentration.

In one embodiment of the present invention by mixing the flame-retardant master batch 40 and the high-density polyethylene together with the flame-retardant component to provide a double heat insulation tube (1) having a flame retardant. Flame retardant PE appearance 30 of the double insulation tube 1 according to an embodiment of the present invention when the high-density polyethylene 100 parts by weight, the flame retardant master batch 40 is composed of about 5 to 50 parts by weight. Figure 2 shows a perspective view of the flame retardant master batch 40 is mixed in the flame retardant PE appearance 30 of another double heat insulation tube 1 in one embodiment of the present invention.

In addition, the outer diameter of the flame retardant masterbatch 40 according to an embodiment of the present invention is about 1 ~ 10mm, the outer diameter of the flame retardant PE appearance 30 may be configured to about 20 ~ 3000mm, of the flame retardant PE appearance 30 The thickness may be configured to about 0.5 ~ 50mm.

The flame retardant master batch 40 may be classified into a master batch containing a halogen-free flame retardant component (inorganic flame retardant) and a master batch containing a halogen-based flame retardant component (organic flame retardant). Halogen free flame retardants (inorganic flame retardants) are not volatilized by heat and decompose to release non-combustible gases such as water, carbon dioxide, sulfur dioxide and hydrogen chloride and endothermic reactions. Therefore, by the endothermic reaction, the ambient temperature is dropped to delay the combustion reaction. The gas phase has the property of diluting the flammable gas to coat the plastic surface to prevent the access of oxygen and at the same time to cool the plastic and reduce the production of pyrolysis products through endothermic reactions on the solid phase surface.

If a small amount of inorganic flame retardant is added to the master batch, the flame retardant properties will not be produced. Therefore, at least 40% of the inorganic flame retardant should be impregnated into the compound to have flame retardant properties. Because of the high content of inorganic matters, workability is not good, but the usage is increasing according to the current non-toxic trend.

The halogen flame retardant component (organic flame retardant) contains halogen-based iodine (I), Br (bromine), Cl (chlorine) or fluorine (F). Iodine-based flame retardants have the best flame retardancy, but have disadvantages such as lack of light and heat resistance and high price. Bromine-based flame retardants are the most widely used worldwide, and in one embodiment of the present invention, bromine-based flame retardants were used together with inorganic flame retardants.

The Restriction of Hazardous Substances (Rohs), which is implemented in the European Union, is a guideline for restricting electronics and electronic devices that use harmful substances. It is becoming the standard in the Korean market, and four heavy metals (lead, cadmium, mercury, 6 Chromium), PBBs and PBDEs brominated flame retardants. Therefore, one embodiment of the present invention uses a bromine-based flame retardant but does not contain PBBs and PBDEs bromine-based flame retardants.

Halogen-based flame retardants reduce the concentration of the active radicals OH? And O? And stop the chain reaction to impart a flame retardant effect. The cleavage of C-X bonds has the effect of reducing the heat of combustion of the combustible material by the endothermic reaction. It also has the effect of blocking oxygen by generating incombustible gases during decomposition. In addition, halogen-based flame retardants are used in combination with an inorganic flame retardant called antimony trioxide, resulting in a strong flame retardant synergy.

Flame retardant master batch 40 according to an embodiment of the present invention is composed of 20 to 70% by weight of low density polyethylene (LDPE) and 30 to 80% by weight of flame retardant components.

The flame retardant component according to an embodiment of the present invention contains a non-toxic bromine flame retardant, an inorganic flame retardant, a dispersant and / or a lubricant, and a low density polyethylene. In addition, bromine-based flame retardants, inorganic flame retardants, dispersants and / or lubricants contained in the flame retardant component according to an embodiment of the present invention, and low density polyethylene is contained in the ratio according to Table 1 below.

division Content (% by weight) Remarks Brominated Flame Retardants 30 to 55 Non-toxic
(Without PBBS, PBDEs) Inorganic flame retardant 10 to 20 Antimony and other flame retardant additives Dispersant / lubricant 1 to 5 Low density polyethylene 20-50 system 100

Figure 3 shows the test results of the flame retardant PE appearance 30 containing the flame retardant masterbatch 40 according to an embodiment of the present invention. And, Figure 4 shows a test analysis result table of the flame-retardant PE appearance 30 containing a flame-retardant masterbatch 40 according to an embodiment of the present invention.

The flame retardant PE appearance 30 used in the test of FIGS. 3 and 4 includes 12.5 wt% of the flame retardant master batch 40, and 45% of the flame retardant component in the flame retardant master batch 40. In addition, the flame retardant component is 45% by weight of non-toxic brominated flame retardant, 15% by weight inorganic flame retardant, 3% by weight of dispersant and / or lubricant, and 37% by weight of low density polyethylene.

As shown in FIG. 3, the PE appearance 30 using the flame retardant component 45% of the flame retardant master batch 40 using 12.5% may have an oxygen index of 32.57. Oxygen index refers to the minimum concentration of oxygen that can be burned by a mixed gas with nitrogen. The temperature of the gas mixture affects the oxygen index, and the oxygen concentration in the standard atmosphere at sea level is 21%. The oxygen index is defined by Equation 1 below.

Therefore, the lower the oxygen index, the more likely it is to burn, and the higher the oxygen index, the more difficult it is to burn and thus have flame retardancy. The product used in the experimental example of the present invention used a flame retardant master containing a flame retardant component of 45% as 12.5%, the oxygen index was about 32.6, but as the thickness of the film becomes thicker, the burnable combustible material also increased. Therefore, the amount of flame retardant component is also preferably increased. Therefore, the flame retardant PE appearance 30 according to an embodiment of the present invention includes a flame retardant master batch 40 of 15% or more, and preferably contains about 60% of flame retardant components in the flame retardant master batch 40.

In addition, as shown in the test analysis result table of FIG. 4, the product used in the experimental example of the present invention is a substance (Pb), cadmium (Cd), mercury (Hg), which are substances restricted by the Restriction of Harmful Substances (Rohs), Bromobiphenyl, Dibromobiphenyl, Tribromobiphenyl, Tetrabromobiphenyl, which corresponds to hexavalent chromium (Cr ^{6 +} ) and PBPs (Polybrominated Biphenyls) bromine Pentabromobiphenyl, Hexabromobiphenyl, Heptabromobiphenyl, Octabromobiphenyl, Nonabromobiphenyl and Dicarbromobiphenyl are all decabromobiphenyl It can be seen that it was not detected. In addition, bromobiphenyl ether, dibromobiphenyl ether, tribromobiphenyl ether, tetrabromobiphenyl ether, which correspond to PCDEs (Polybrominated Diphenyl Ethers) bromine series ), Pentabromobiphenyl ether, hexabromobiphenyl ether, heptabromobiphenyl ether, heptabromobiphenyl ether, octabromobiphenyl ether, nonabromobiphenyl ether ( It can be seen that both nonabromobiphenyl ether and decabromobiphenyl ether were not detected.

<Flammability PE  Appearance Manufacturing Apparatus and Manufacturing Method>

Hereinafter, the flame-retardant PE appearance of the double insulation tube 1 according to an embodiment of the present invention 30 will be described for the manufacturing apparatus (2). First, Figure 5 schematically shows the configuration of the configuration of the flame-retardant PE outer appearance 30 manufacturing apparatus 2 of the double heat insulation tube 1 according to an embodiment of the present invention.

As shown in Figure 5, the flame retardant storage tank 200 and the flame retardant is stored in the manufacturing apparatus 2 of the flame retardant PE outer shell 30 of the double thermal insulation tube 1 according to an embodiment of the present invention. The PE storage tank 100 is stored in the high-density polyethylene resin. In addition, the flame retardant storage tank 200 and the PE storage tank 100 is connected to the flame retardant stored in the flame retardant storage tank 200 and the high density polyethylene resin stored in the PE storage tank 100 is added to mix the flame retardant and high density polyethylene resin The mixing tank 400 which forms a flame-retardant polyethylene resin is provided. In addition, a flame retardant polyethylene resin produced in the mixing tank 400 is provided with a plurality of molds, and includes an extruder 600 for emitting the flame retardant PE exterior 30.

As shown in FIG. 5, the flame retardant PE exterior manufacturing apparatus 2 of the double insulation tube 1 according to an embodiment of the present invention is between the flame retardant storage tank 200 and the mixing tank 400 and the PE storage tank ( It can be seen that it is provided between each of the 100 and the mixing tank 400 includes an injection amount measuring device 300 for measuring the amount of the flame retardant and high-density polyethylene is injected into the mixing tank 400.

Therefore, the input amount of the flame retardant and high-density polyethylene injected into the mixing tank 400 by the input amount measuring device 300 is adjusted. Flame retardant PE appearance 30 according to an embodiment of the present invention, as described above, when the high-density polyethylene 100 parts by weight, the flame retardant is composed of 5 to 50 parts by weight. In addition, the flame retardant stored in the flame retardant storage tank 200 is to be composed of a pallet-shaped flame retardant master batch 40, as described above.

In addition, the flame-retardant PE appearance manufacturing apparatus 2 of the double insulation tube 1 according to an embodiment of the present invention is provided in the mixing tank 400, as shown in Figure 5 flame retardant master batch 40 and It can be seen that it comprises a stirrer 500 for mixing the high density polyethylene.

And, as described above, the flame retardant master batch 40 is composed of 20 to 70% by weight of low density polyethylene and 30 to 80% by weight of the flame retardant component, the flame retardant component is 30 to 55% by weight of non-toxic brominated flame retardant, inorganic flame retardant 10 ~ 20 weight percent, 1-5 weight percent dispersant and / or lubricant and 20-50 weight percent low density polyethylene.

In addition, the flame-retardant PE appearance manufacturing apparatus 2 of the double thermal insulation tube 1 according to an embodiment of the present invention, as shown in Figure 5, further comprises an injection device 700, the color of the extruder inlet 610 And a master batch for dispensing. The extruder 600 may further include heating means for heating the flame retardant polyethylene resin introduced into the extruder 600.

Hereinafter, a method of manufacturing the flame retardant PE appearance 30 using the flame retardant PE appearance manufacturing apparatus 2 of the double insulation tube 1 described above will be described. First, FIG. 6 shows a flowchart of a method of manufacturing a flame retardant PE appearance 30 using the flame retardant PE appearance manufacturing apparatus 2. As shown in FIG. 6, first, a flame-retardant master batch 40 in a pallet form is introduced into the flame retardant storage tank 200, and a high density polyethylene resin is introduced into the PE storage tank 100 (S10).

The flame-retardant masterbatch 40 in the form of a pallet stored inside the flame retardant storage tank 200 is composed of 20 to 70% by weight of low density polyethylene and 30 to 80% by weight of flame retardant components, and the flame retardant is non-toxic bromine-based. 30 to 55 weight percent flame retardant, 10 to 20 weight percent inorganic flame retardant, 1 to 5 weight percent dispersant and / or lubricant and 20 to 50 weight percent low density polyethylene.

Then, the flame retardant master batch 40 and the high density polyethylene resin is injected into the mixing tank 400 connected to the flame retardant storage tank 200 and the PE storage tank 100 (S20). At this time, when the high-density polyethylene is 100 parts by weight by the input measuring device 300 provided between the flame retardant storage tank 200 and the mixing tank 400 and between the PE storage tank 100 and the mixing tank 400, flame retardant 5 to 50 parts by weight of the master batch 40 is introduced into the mixing tank 400.

Then, by operating the stirrer 500 provided inside the mixing tank 400, the flame retardant master batch 40 and the high-density polyethylene resin is stirred to generate a flame-retardant polyethylene resin (S30). Then, the flame-retardant polyethylene resin is injected into the extruder inlet 610 (S40). In addition, as shown in Figure 6, by operating the input device 700 to further include the step of adding 1 to 15% by weight (preferably 1 to 3% by weight) of the master batch for color to the extruder inlet 610 Can be configured.

Finally, by operating the extruder 600, according to the mold provided in the extruder 600, the flame-retardant PE appearance 30 is emitted (S50). At this time, by operating the heating means provided in the extruder 600 may heat the flame-retardant polyethylene resin introduced into the extruder 600.

1: Flame retardant double insulation tube (1)
2: Flame retardant PE appearance manufacturing equipment
10: Inner tube
20: Insulation
30: Flame retardant PE appearance
40: Flame retardant masterbatch
100: PE storage tank
200: flame retardant storage tank
300: dosage measurement device
400: mixing tank
500: stirrer
600: extruder
610: extruder inlet
700: Dosing device

Claims (19)

In the inner tube and the outer tube and the double insulation tube having a heat insulating material between the inner tube and the outer tube,
The appearance is made of a mixture of polyethylene and a flame retardant has a flame retardant,
The flame retardant is a flame-retardant masterbatch of the pallet form, the appearance is flame retardant double insulation tube, characterized in that consisting of 100 parts by weight of high density polyethylene and 5 to 50 parts by weight of the flame retardant masterbatch.
delete delete The method of claim 1,
The flame retardant masterbatch is a low-density polyethylene 20 to 70% by weight and flame retardant double heat insulation tube, characterized in that consisting of 30 to 80% by weight.
The method of claim 4, wherein
The flame retardant component is
Non-toxic brominated flame retardant 30 to 55% by weight, inorganic flame retardant 10 to 20% by weight, 1 to 5% by weight of the dispersant and lubricant, and 20 to 50% by weight of low density polyethylene flame retardant double insulation tube.
The method of claim 1,
The insulation is a flame retardant double insulation tube, characterized in that the rigid polyurethane.
The method of claim 1,
The inner pipe is a steel pipe, SUS pipe, copper pipe, carbon steel pipe, double composite pipe or PE pipe, the double composite pipe is SUS and iron, SUS and aluminum or iron and iron, flame retardant double insulation tube.
In the flame-retardant PE outer appearance manufacturing apparatus of claim 1,
A flame retardant storage tank in which flame retardants are stored;
PE storage tank in which the high density polyethylene resin is stored;
A flame retardant connected to the flame retardant storage tank and the PE storage tank and a flame retardant stored in the flame retardant storage tank and a high density polyethylene resin stored in the PE storage tank are mixed to mix the flame retardant and the high density polyethylene resin to generate a flame retardant polyethylene resin Tank; And
Apparatus for producing a flame retardant PE appearance of the double heat insulation tube, characterized in that it comprises an extruder having a plurality of molds and the flame-retardant polyethylene resin produced in the mixing tank is injected into the flame retardant PE appearance.
The method of claim 8,
It is further provided between the flame retardant storage tank and the mixing tank, and between the PE storage tank and the mixing tank, each of the input amount measuring device for measuring the input amount of the flame retardant and the high-density polyethylene is added to the mixing tank Flame retardant PE appearance manufacturing equipment of double insulation tube.
The method of claim 9,
Apparatus for producing a flame retardant PE appearance of the double heat insulation tube, characterized in that it further comprises a stirrer provided inside the mixing tank to mix the flame retardant and the high density polyethylene.
The method of claim 8,
The flame retardant stored in the flame retardant storage tank is a flame retardant PE exterior manufacturing apparatus of the double insulation tube, characterized in that the pallet-type flame retardant masterbatch.
12. The method of claim 11,
The flame retardant masterbatch is composed of low density polyethylene 20 to 70% by weight and flame retardant component 30 to 80% by weight, the flame retardant component is non-toxic brominated flame retardant 30 to 55% by weight, inorganic flame retardant 10 to 20% by weight, dispersant and lubricant 1 Flame retardant PE exterior manufacturing apparatus of the double insulation tube, characterized in that consisting of ~ 5% by weight and 20 to 50% by weight of low density polyethylene.
13. The method of claim 12,
The flame-retardant polyethylene resin is a flame retardant PE exterior manufacturing apparatus of the double heat insulation tube, characterized in that consisting of 100 parts by weight of high density polyethylene and 5 to 50 parts by weight of the flame retardant masterbatch.
The method of claim 8,
Flame retardant PE exterior manufacturing apparatus of the double heat insulation tube, characterized in that it further comprises a feeding device for feeding the color master batch for the extruder.
The method of claim 8,
Flame retardant PE appearance manufacturing apparatus of the double heat insulation tube, characterized in that it further comprises a heating means for heating the extruder.
In the flame-retardant PE appearance of the double insulation tube using the flame-retardant PE appearance manufacturing apparatus of claim 8,
Putting a flame-retardant masterbatch in a pallet form into a flame retardant storage tank and injecting a high density polyethylene resin into a PE storage tank;
Injecting the flame retardant master batch and the high density polyethylene resin into a mixing tank connected to the flame retardant storage tank and the PE storage tank;
Operating a stirrer provided in the mixing tank to stir the flame retardant masterbatch and the high density polyethylene resin to produce a flame retardant polyethylene resin;
Injecting the flame-retardant polyethylene resin into the inlet of the extruder; And
Flame-retardant PE appearance of the double heat insulation tube, characterized in that it comprises the step of outputting the flame-retardant PE appearance according to the mold provided in the extruder by operating the extruder.
17. The method of claim 16,
Injecting into the mixing tank,
100 parts by weight of the high-density polyethylene and 5 to 50 parts by weight of the flame retardant masterbatch are added to the mixing tank by an input measuring device provided between the flame retardant storage tank and the mixing tank and between the PE storage tank and the mixing tank. Flame-retardant PE appearance of the double insulation tube, characterized in that the manufacturing method.
The method of claim 17,
Injecting into the inlet of the extruder,
Flame retardant PE appearance manufacturing method of the double insulation tube further comprising the step of operating a feeding device to the color injection master batch 1 to 15% by weight into the extruder inlet.
17. The method of claim 16,
The flame retardant masterbatch is composed of low density polyethylene 20 to 70% by weight and flame retardant component 30 to 80% by weight, the flame retardant component is non-toxic brominated flame retardant 30 to 55% by weight, inorganic flame retardant 10 to 20% by weight, dispersant and lubricant 1 Flame retardant PE exterior manufacturing method of the double heat insulation tube, characterized in that consisting of ~ 5% by weight and 20-50% by weight of low density polyethylene.

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