KR200416779Y1 - Tube for heat exchanger with dual protective film - Google Patents

Abstract

The present invention relates to a tube for use in a heat exchanger, and more particularly, to a tube for a heat exchanger having a double protective film to prevent corrosion, and a hollow tube through which a heating medium flows therein; A coating layer coated on an outer surface of the hollow tube to protect the hollow tube; Fluorine resin (Teflon) lining on the outer surface of the coating layer to protect the coating layer and the hollow tube (Teflon) lining layer; is configured to include to prevent the corrosion of the hollow tube to improve the operation efficiency of the facility The present invention relates to a tube for a heat exchanger having a double protective film having an effect of reducing the cost and maintenance costs.

Heat exchanger, tube, double protection film, fluorocarbon resin, enamel, ceramic, coating layer, PFA, FEP

Description

TUBE FOR HEAT EXCHANGER WITH DUAL PROTECTIVE FILM

1-a sectional view of a tube according to the prior art;

2 is a schematic perspective view showing a state of use of a tube for a heat exchanger having a double protective film according to a first embodiment of the present invention.

3-a sectional view of a tube for a heat exchanger having a double protective film;

<Description of Major Symbols Used in Drawings>

100: hollow tube

200: coating layer

300: fluorine resin (Teflon) lining layer

The present invention relates to a tube used for a heat exchanger, and more particularly to a tube for a heat exchanger having a double protective film to prevent corrosion.

Heat exchangers are used throughout the industry to transfer heat energy or recover energy that is thrown away. Such heat exchangers generally include hollow tubes through which a heat medium flows. The heat exchanger is installed on a duct through which the combustion gas is discharged, and the hollow tubes are in contact with the combustion gas, thereby performing heat exchange.

Combustion gases are hot and contain highly corrosive chemicals and other particulate matter. Due to this combustion gas, the tubes forming the heat exchanger are easily corroded and oxidized, and frequent replacement is inevitable. Such frequent replacement operation lowers the operation rate of the equipment and has a problem of requiring a large maintenance cost.

As a means to solve such a problem, there is a coating of PTFE on the outer surface of the European Patent No. EP0900991. 1 shows a schematic cross sectional view thereof. However, the PTFE (Poly Tetra Fluoro Ethylene) is a kind of fluorine resin (Teflon), and when only PTFE is formed on the outer surface of the tube, if fine damage occurs on the surface due to inadequate scratches during installation or careless installation, There was a problem that the harmful gas is in contact with the tube through the site to cause corrosion of the tube in a short time. Once the tube begins to corrode, the degree of corrosion progresses rapidly, resulting in the tube being cut.

Another conventional technology is a heat exchanger of a gas boiler of Korea Patent Application No. 1996-0012336. Here, the technique of surface-treating the surface of a heat exchange tube with Teflon, an enamel, heat-resistant paint, a ceramic, etc. is disclosed. However, even in the prior art, only one of Teflon, enamel, ceramic, and the like is coated on the tube surface, and thus there is a problem in that sufficient durability cannot be obtained. In all of the above-described prior arts, a method of applying PTFE, ceramics, enamel or the like to the tube surface by spraying has been adopted. In addition, the PTFE had a material limitation that the fine pores after coating.

Accordingly, the present invention for solving the above problems is to provide a heat exchange tube to form a double protective film on the surface of the hollow tube in the configuration of the tube for the heat exchanger to effectively prevent corrosion by the combustion gas. It is done.

Another object of the present invention is to provide a heat exchange tube that can reliably prevent combustion gas infiltration by using perfluoroalkoxy (PFA) or fluorinated ethylene propylene (FEP) having a porosity in the fluorine resin to be lined.

The present invention for achieving the object as described above, in the tube for the heat exchanger and the hollow tube through which the heat medium flows; A coating layer coated on an outer surface of the hollow tube to protect the hollow tube; The outer surface of the coating layer is fluorine resin (Teflon) lining is treated with a fluorine resin (Teflon) lining layer to protect the coating layer and the hollow tube; comprising a double protective film characterized in that to prevent corrosion of the hollow tube It relates to a tube for a heat exchanger having a.

And the coating layer, characterized in that coated with enamel or ceramic, the fluorine resin lining layer relates to a tube for heat exchanger having a double protective film, characterized in that using a non-porous PFA or FEP such as forming will be.

Hereinafter, a heat exchanger tube having the configuration as described above will be described in more detail with reference to a specific embodiment, and FIG. 2 is a schematic view showing a state of use of the heat exchanger tube having a double protective film according to the first embodiment of the present invention. 3 is a cross-sectional view of a tube for a heat exchanger having a double protective film.

As shown in FIG. 2, a plurality of tubes for a heat exchanger having a double protective film are stacked to form a heat exchanger, and are installed inside a duct to perform heat exchange.

Referring to Figure 3, the heat exchanger tube is composed of a hollow tube, a coating layer, a fluororesin (teflon) lining layer from the inside. The hollow tube generally uses a metal tube, and forms a coating layer as a primary protective film on the outer surface of the hollow tube. Corrosion-resistant materials, such as enamel (enamel), ceramics may be applied as the coating layer, and the coating layer is formed on the surface of the hollow tube by spraying or dipping the corrosion-resistant material such as enamel. In addition to the enamel (enamel) and ceramic, the coating layer may be applied to various corrosion resistant or heat resistant paints.

The fluorine resin (Teflon) lining layer is formed on the outer surface of the coating layer thus formed as a secondary protective film. The fluororesin (Teflon) lining layer melts Teflon, in particular PFA (Perfluoroalkoxy) or FEP (Fluorinated ethylene propylene) to form a tube to form a tube with a coating layer on it to complete the tube for heat exchanger having a double protective film . The surface treatment in this way is called lining treatment, and in particular, in the present invention, the lining is made of PFA or FEP having a nonporous shape among fluorocarbon resins (Teflon).

According to the present invention according to the configuration as described above, even if unintentional damage to the fluorine resin (Teflon) lining layer, because there is a coating layer therein, the hollow tube is prevented from directly contacting the harmful gas to prevent corrosion of the hollow tube It will become a characteristic.

In particular, the fluorine resin (Teflon) lining layer has the advantage that the surface damage is likely to occur during the molding process or during installation, the coating layer as in the present invention has the advantage that the corrosion protection function for the hollow tube is excellent.

And compared to the use of PTFE as the fluorine resin (Teflon) in the prior art, by using the PFA or FEP having a non-porous property in the present design it can be given a more suitable function for the purpose of the present invention to achieve corrosion protection . Corrosion of the hollow tube is also caused by the contact with harmful gases in the microscopic area, and the difference is remarkable depending on whether the fluororesin (Teflon) is porous or nonporous. Corrosion, once initiated, proceeds rapidly, and thus, the present invention forms a non-porous fluorine resin (Teflon) lining layer to effectively block the penetration of harmful gases.

According to the present invention having the configuration as described above, since the double protective film is formed on the outer surface of the hollow tube, it is possible to more reliably prevent the problem that the harmful gas is in direct contact with the hollow tube.

Because of this, even if the heat exchanger is used for a long time, the hollow tube is not easily damaged and thus it is not necessary to replace the heat exchange tube frequently, which can provide the effect of increasing the operating efficiency and reducing the maintenance cost.

Claims (3)

In the tube for heat exchanger, A hollow tube 100 through which a heat medium flows; A coating layer 200 coated on an outer surface of the hollow tube to protect the hollow tube; And a fluorine resin (Teflon) lining layer 300 to protect the coating layer and the hollow tube by lining the outer surface of the coating layer with a fluorine resin (Teflon) to prevent corrosion of the hollow tube. Heat exchanger tube having a double protective film. The method of claim 1, wherein the coating layer, Tube for heat exchanger having a double protective film, characterized in that the coating with enamel or ceramic. The fluorine resin (Teflon) lining layer of claim 1, A tube for a heat exchanger having a double protective film, characterized in that using a perfluoroalkoxy (PFA) or Fluorinated ethylene propylene (FEP) forming a non-porous after molding.

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