KR200210494Y1 - Adiabatic coated double insulation pipe - Google Patents

Abstract

The present invention is to form a coating layer with excellent insulation and corrosion resistance used in the piping system for transferring fluids sensitive to temperature changes, such as water, hot water, steam, oil, etc., and then double the insulation by foaming the insulating material at a constant pressure. A double heat insulating tube comprising: an inner tube for conveying a fluid having a temperature condition of -18 to 1200 ° C., an outer tube into which the inner tube is inserted, and an insulating material foam-filled between the inner and outer tubes; A coating layer is formed on the outer circumference of the inner tube so as to have a thickness of 0.5 to 5 mm along its length direction, wherein the coating layer includes monomers and acrylic polymers, emulsion resins and rubber resins, amorphous silicates and quartz silicates, expanded pearlite insulation and synthetic resins. And an acrylate copolymer, titanium dioxide, ethylene glycol and ammonia, water and a surface active agent, and a mixed material selected from the group consisting of any one.

Accordingly, the present invention can be sufficiently utilized in high temperature piping because the heat insulation is significantly improved, it is possible to reduce the foam filling thickness of the thermal insulation material is reduced the volume of the double pipe provides an advantage that the construction is easy and shorten the air.

Description

Insulation coating double insulation tube {ADIABATIC COATED DOUBLE INSULATION PIPE}

The present invention is to form a coating layer with excellent insulation and corrosion resistance used in the piping system for transferring fluids sensitive to temperature changes, such as water, hot water, steam, oil, etc., and then double the insulation by foaming the insulating material at a constant pressure. It is about.

Generally, a pipe (pipe) is a guide member for conveying an indefinite fluid.

These pipes are roughly classified into steel pipes, copper pipes, cast iron pipes, and resin (plastic) pipes according to their materials, and steel pipes are mainly used to transfer high-temperature fluids, and copper pipes, cast iron pipes, and resin pipes are used depending on the temperature range of the object to be transferred. .

In particular, when transferring fluids sensitive to temperature changes such as cold water, hot water, steam, oil, etc., it is necessary to use pipes made of excellent materials such as rust prevention, anticorrosion, thermal insulation, and cold storage to increase durability and preserve the physical properties of the fluid to be transferred. have.

In the past, the rust preventive coating was applied to the outside of the pipe to prevent rust.However, the effect of the rust preventive coating could not be achieved due to the dew condensation. There was an inconvenience to be done.

In particular, in the case of a double insulation tube consisting of two tubes, an inner tube and an outer tube, only the polyurethane insulation was foamed and filled between the inner tube and the outer tube to improve the thermal insulation, that is, the thermal insulation.

However, due to the physical properties of the insulating material, there is a disadvantage that such a double insulating tube cannot be used in a high temperature pipe of about 1200 ° C. In addition, in order to enjoy excellent heat insulating property, the thickness of the insulating material must be thickened more than necessary so that the pipe becomes large in size. There was a drawback that the workability was significantly slowed down and the working time was excessively increased, and the production cost was greatly increased.

The present invention was devised to solve this problem in view of the above-described problems of the prior art, and it significantly reduces the thickness of the thermal insulation material and significantly improves the thermal insulation performance to improve the workability of the pipe and can be sufficiently used at high temperatures. Its purpose is to provide double insulation thermal insulation tubes that can reduce production costs.

An object of the present invention is a double heat insulating tube comprising an inner tube for transporting a fluid having a temperature condition of -18 ~ 1200 ℃, the outer tube is inserted, and the heat insulating material is foam-filled between the inner, outer tube To; A coating layer is formed on the outer circumference of the inner tube to have a thickness of 0.5 to 5 mm along its length direction, wherein the coating layer is expanded pearl cancer material, titanium dioxide, and zinc oxide on an acrylic copolymer, an emulsion resin, and a modified rubber resin. An organic mixed material obtained by mixing at least one filler selected from magnesium oxide and silicon dioxide with a diluent; Colloidal metal oxides (MO _m x H ₂ O: M is any one of Si, Al and Ti), which are organic urethanes and inorganic substances, expanded pearlite, titanium dioxide, zinc oxide, expanded alumina, silicon dioxide, and mica An organic and inorganic mixed material obtained by mixing at least one selected filler and diluent; It is achieved by forming any one mixed material selected from the group consisting of inorganic mixed materials consisting of inorganic colloidal metal oxides, ceramic polymers and phosphates mixed with ceramics and diluents as fillers.

1 is an external perspective view of a double insulation heat insulating tube according to the present invention,

Figure 2 is a side cross-sectional view of the insulation coating double insulation tube according to the present invention.

Explanation of symbols on the main parts of the drawings

10: inner tube, 20: coating layer,

30: heat insulating material, 40: appearance.

The pipe used in the present invention is used for the delivery of fluids sensitive to temperature changes such as cold water, hot water, steam, and oil, and is intended for steel pipes, copper pipes, and cast iron pipes that are used at a temperature range of about -18 to 1200 ° C. .

The method of coating the coating material on the outer surface of the tube according to the present invention is a known technique, for example, it is possible to form a coating layer by directly painting with a brush or a roller, or a spray method using a nozzle, and the spray method is particularly preferable. .

Hereinafter, a preferred embodiment according to the present invention will be described in more detail on the basis of the accompanying drawings.

1 is an external perspective view showing a preferred example of the heat insulation double insulation tube according to the present invention, Figure 2 is a side cross-sectional view of the heat insulation double insulation tube according to the present invention.

As shown in Figures 1 to 2, the heat insulation coated double insulation tube of the present invention is provided with an inner tube 10 which is a passage for transferring fluid, the outer periphery of the inner tube 10 is the length thereof A coating layer 20 coated with a predetermined thickness is formed along the fragrance, and an exterior 40 having an inner tube 10 inserted therebetween is provided at a distance from the coating layer 20, and the coating layer 20 and the exterior 40 are provided. Between the heat insulating material 30 is filled.

As described above, the inner tube 10 is any one selected from steel pipes, copper pipes and cast iron pipes, which are classified according to the material thereof, and preferably, the inner pipe 10 is used most frequently.

The coating material constituting the coating layer 20 is required to have sufficient cold storage performance even at -18 to 1200 占 폚. To this end, the coating material is a mixture of a filler, which is a main component of thermal insulation, and a diluent for controlling the mixing ratio to the adhesive. Here, the diluent is mainly water and surfactant. Such coating materials are roughly classified into organic mixed materials, organic and inorganic mixed materials, and inorganic mixed materials according to the components of the adhesive. The temperature range and main components of each mixed material are as follows. Organic mixed materials are mainly used when the temperature of the flowing fluid is 150 ° C or less. Expanded pearlite materials, titanium dioxide, zinc oxide, magnesium oxide, and dioxide are dispersed in organic materials such as acrylic copolymers, emulsion resins, and modified rubber resins. It consists of mixing at least one filler and diluent selected from silicon. The reason why the organic mixed material is used as a coating material for a heat insulating tube through which a fluid of 150 ° C. or less flows is because when the organic material used as an adhesive component exceeds 150 ° C., the adhesive function is lost. Organic and inorganic mixed materials are mainly used when the temperature of the flowing fluid is 150 ~ 200 ℃, organic substances such as acrylic urethane and colloidal metal oxide (MO _m x H ₂ O: M is Si, Al, At least one filler and diluent selected from expanded pearlstone material, titanium dioxide, zinc oxide, expanded alumina oxide, silicon dioxide, and mica are mixed with an inorganic material such as Ti). The reason for limiting the use of the organic and inorganic mixed materials only to the fluid temperature of 150 to 200 ° C is not suitable because the adhesive force is lost when the temperature is above 200 ° C. It is not preferable in use because it reduces heat insulation effect. Inorganic mixtures are mainly used when the fluid temperature is 200 ~ 1200 ℃, it is made by mixing a heat insulating filler and diluent such as ceramic to inorganic materials such as colloidal metal oxide, ceramic polymer, phosphate. The reason for limiting the use temperature of the inorganic mixed material is the same as the reason for limiting the organic and inorganic mixed material.

Therefore, according to the temperature of the fluid flowing through the heat insulating tube, it is preferable to use the optimum mixed material as the coating material in consideration of workability, economical efficiency, heat insulating property, adhesiveness, etc. when coating the coating material.

The thickness T of the coating layer 20 is set to 0.5-5 mm.

The coating thickness T is coated differently within the range of the thickness according to the range of the use temperature of the fluid passing through the inner tube 10.

The coating process first removes foreign substances such as oil and soil attached to or adhered to the outer circumference of the inner tube 10, and then forms a coating layer using a brush, roller, or spray that is completely dried.

When recoating after the primary coating, the coating is preferably carried out in a completely dry state (after about 4 hours).

The heat insulating material 30 is a member that foam-filled between the inner tube 10 and the outer portion 40 to perform a heat insulation function.

As the thermal insulation material 30, a rigid polyurethane foam is generally used, and the inner tube 10 having the coating layer 20 formed therein is inserted into the outer shell 40 so that the center of diameter between the inner tube 10 and the outer shell 40 is fixed. After sealing both sides of the space between the tubes (10,40) in the state is made by foam-filling the rigid polyurethane.

The thermal insulation material 30 does not have to have a thick foam filling layer for use in high-temperature piping as in the past, except in special cases because the coating layer 20 coated on the outer periphery of the inner tube 10 is excellent in heat insulation and corrosion resistance.

That is, since the primary heat insulation, rust prevention, and corrosion in the coating layer 20, it may have a thickness to assist this.

The reason for not limiting the thickness precisely is that the thickness of the coating layer 20 varies depending on the use temperature range described above, and of course, the thickness of the insulating material 30 also varies according to the thickness of the coating layer 20. It has a significantly thinner thermal insulation layer than the conventional one, and the thermal insulation performance is significantly increased, so that it can be sufficiently used in high temperature piping.

Exterior 40 is a tube that protects the inner tube 10 is disposed at the outermost when buried. Suitable materials are high density polyethylene pipe, aluminum pipe, steel pipe, cast iron pipe, and the like.

As described in detail above, the insulation coating double insulation tube according to the present invention provides the following effects.

First, by coating a coating material with excellent insulation and corrosion resistance on the inner tube outer periphery of the inner tube and the outer tube made of foam and filled with a thermal insulation material it can significantly reduce the filling thickness of the thermal insulation material provides an effect of reducing the production cost.

Secondly, since the insulation thickness is improved while the thickness of the insulation is reduced, the volume of the double pipe is reduced, and thus the construction is easy, thereby providing a significant increase in work efficiency.

Claims (1)

An inner tube 10 for transporting a fluid having a temperature condition of -18 to 1200 ° C., an outer tube 40 into which the inner tube 10 is inserted, and an insulating material foam-filled between the inner and outer tubes 10 and 40 ( In the double heat insulating tube consisting of 30); Coating to have a thickness of 0.5 ~ 5mm along the longitudinal direction on the outer periphery of the inner tube 10 to form a coating layer 20, The coating layer 20 is an organic mixed material obtained by mixing at least one filler and a diluent selected from expanded pearlite material, titanium dioxide, zinc oxide, magnesium oxide, and silicon dioxide in an acrylic copolymer, an emulsion resin, and a modified rubber resin, which are organic materials. Wow; Colloidal metal oxides (MO _m x H ₂ O: M is any one of Si, Al and Ti), which are organic urethanes and inorganic substances, expanded pearlite, titanium dioxide, zinc oxide, expanded alumina, silicon dioxide, and mica An organic and inorganic mixed material obtained by mixing at least one selected filler and diluent; Insulating coating double insulation tube, characterized in that formed of any one selected from the group consisting of a mixed material consisting of a mixture of inorganic mixed colloidal metal oxides, ceramic polymers, phosphates and ceramics and a diluent filler.